| Document | Document Title |
|---|---|
| US08896218B2 |
Wireless lighting control system
A lighting device includes a DC/DC power converter, a controller/processor electrically connected to the DC/DC power converter, a light emitting diode (LED) current control circuit communicably coupled to the controller/processor and electrically connected to the DC/DC power converter, and two or more LEDs comprising at least a first color LED and a second color LED electrically connected to the LED current control circuit. The LED current control circuit provides an on/off signal having a cycle time to each LED in response to one or more control signals received from the controller/processor such that the two or more LEDs produce a blended light having a specified color based on how long each LED is turned ON and/or OFF during the cycle time. |
| US08896208B2 |
Light assembly
The present invention includes one embodiment containing an LED lighting assembly containing: a troffer; a bulbless and/or tubeless sub-housing; one or more solid state lighting units contained within the troffer and actuated by alternating current power; a night light contained within the bulbless sub-housing and operably communicating with the solid state lighting units, the night light actuated in the absence of light from the solid state lighting units; one or more light emitting diodes contained within the night light; and a battery source for powering the night light in the event of power interruption.In yet another embodiment of the invention, a replaceable lighting unit contains: a bulbless and/or tubeless sub-housing. One or more light emitting diodes are contained within the sub-housing. A battery source may be contained within the sub-housing, and the battery source may be configured to selectively power the light emitting diodes with direct current energy. |
| US08896205B1 |
Quartz light
A quartz light includes a lamp base having two grooves, and a light capsule located above the lamp base and having a projection disposed in a compartment of the light capsule, a metal electrode engaged in the compartment of the light capsule and engaged over the projection for forming two downwardly dependent limbs, two molybdenum foils engaged in the compartment of the light capsule and electrically connected to the limbs of the metal electrode, and two lead wires electrically coupled to the molybdenum foils and each having an external end portion extended out of the light capsule and engaged through the grooves of the lamp base and extended out of the lamp base, and secured to the lamp base by heat sealing the lamp base onto the lead wires. |
| US08896202B2 |
Display device
A display device is disclosed. The display device comprises a flexible display screen and a body supporting the flexible display screen. The body comprises a first body comprising a sloping surface on a cross-section, a second body, and a third body comprising a sloping surface on a cross-section. The body comprises a first bending portion provided between the first body and the second body, and the sloping surface of the first body is attached to the second body by the rotation of the first body. |
| US08896193B2 |
Spark plug
A spark plug including a ceramic insulator having an axial hole, a center electrode inserted into the axial hole, a metallic shell provided around the insulator, a ground electrode fixed to the metallic shell, and a tip joined to a distal end portion of the ground electrode and forming a spark discharge gap between the tip and a forward end portion of the center electrode. The ground electrode includes an outer layer and an inner layer provided inside the outer layer and formed of a metal containing copper as a main component. The tip is joined to the ground electrode by a fusion portion containing a metal forming the tip and a metal forming the outer layer. The fusion portion is in contact with the inner layer and contains copper. The spark plug efficiently conducts heat from the tip to the inner layer to improve corrosion resistance of the tip. |
| US08896189B2 |
Stator for electric rotating machine and method of manufacturing the same
A stator for an electric rotating machine includes a hollow cylindrical stator core, a stator coil, an outer cylinder, and at least one restraint. The stator core is comprised of a plurality of stator core segments that are arranged in the circumferential direction of the stator core to adjoin one another in the circumferential direction. The stator coil is mounted on the stator core. The outer cylinder is fitted on the radially outer surfaces of the stator core segments so as to fasten the stator core segments together. The restraint is arranged on an axial side of the stator core and retained by the outer cylinder so as to restrain axial deformation of the stator core segments due to the fastening force of the outer cylinder. |
| US08896188B2 |
Resonator electrodes and related methods and apparatus
Resonator structures and electrodes are described, as well as methods for manufacturing the same. Resonator electrodes may be formed using two or more photolithographic steps and masks, with different masks being used to define different features of the electrodes. The masks may create self-aligned electrodes, which can be aligned with one or more anchors of the resonator. |
| US08896186B2 |
Apparatus for providing haptic feedback
Disclosed is an apparatus used in an electronic device for providing haptic feedback. The apparatus includes a holder having a pair fastening holes, a piezoelectric vibrator having a first though holes, a terminal with a second though hole mounted on the piezoelectric vibrator and electrically connected to the piezoelectric vibrator, and a pair of fixing portions fixing the terminal and the piezoelectric vibrator on the holder though the second though hole of the terminal, a first though holes of the piezoelectric vibrator and the fastening holes of the holder. The fixing portions fix the terminal and piezoelectric vibrator on the holder, which makes the assembling process much easier. |
| US08896184B2 |
Piezoelectric MEMS microphone
A piezoelectric MEMS microphone comprising a multi-layer sensor that includes at least one piezoelectric layer between two electrode layers, with the sensor being dimensioned such that it provides a near maximized ratio of output energy to sensor area, as determined by an optimization parameter that accounts for input pressure, bandwidth, and characteristics of the piezoelectric and electrode materials. The sensor can be formed from single or stacked cantilevered beams separated from each other by a small gap, or can be a stress-relieved diaphragm that is formed by deposition onto a silicon substrate, with the diaphragm then being stress relieved by substantial detachment of the diaphragm from the substrate, and then followed by reattachment of the now stress relieved diaphragm. |
| US08896183B2 |
Ultrasonic vibration device
In an inner bottom surface of a case, a substantially oblong recess having a long axis and a short axis forms a vibration area. A piezoelectric element is bonded to the center of the recess. On the opposite sides of the vibration area, vibration suppression areas thicker than the vibration area are disposed. A side portion of the case is formed to be thin over the entire circumference thereof. A reinforcing member higher in rigidity than the case is bonded to upper portions of the vibration suppression areas. The reinforcing member has a bottom surface substantially equal to the shape of the vibration suppression areas, and has a predetermined height. A gap between the reinforcing member and an inner side surface of the case is also filled with a filling member. |
| US08896177B2 |
Interior permanent magnet motor and manufacturing method for the same
An interior permanent magnet motor in provided which is made up of a permanent magnet, and a rotor core of which an insertion aperture for the permanent magnet to be inserted thereinto is formed in the rotor core. Additionally, the interior permanent magnet motor includes a first end plate which is connected to the rotor core and of which a first seating portion for the permanent magnet is disposed thereto is formed in the first seating portion and a second end plate which is connected to the rotor core and of which a second seating portion for the permanent magnet is disposed thereto is formed in the second end plate. |
| US08896174B2 |
Active magnetic bearing
An active magnetic bearing includes a bearing housing, a bearing stator, a bearing armature, a position detector, a jacket, and a stress buffering member. The bearing stator is accommodated in the bearing housing to support rotation of a rotor by using a magnetic force. The bearing armature is disposed to be spaced apart from the bearing stator by an interval and fixed to the rotor. The position detector is installed in the bearing housing to detect a position of the rotor. The jacket is interposed between the bearing stator and the bearing armature to seal a space between the bearing stator and the bearing housing. The stress buffering member connected to opposite ends of the jacket and the bearing housing, to buffer a stress generated due to differences between thermal exposition coefficients and temperatures of the bearing housing and the jacket. |
| US08896173B2 |
Spindle motor having reception part in rotor hub
There is provided a spindle motor including: upper and lower thrust parts fixedly installed on a shaft; a reception part formed in the rotor hub to thereby receive an end portion of the upper thrust part and form an oil interface together with the upper thrust part; and a clamp fixing part inserted into the reception part while having a clearance with the upper thrust part, and guiding a position of a clamp for fixing the recording medium. |
| US08896172B2 |
Substrate support structure
[Object] An object of the present invention is to provide a substrate support structure which can prevent a crush rib from damaging components other than a substrate and brings excellent workability.[Means to solve] In a substrate support structure, a box-shaped resinous case 2 provided with a holding space section 23 is separated into a first case 21 and a second case 22, and a substrate 3 is housed in the holding space section 23. A first crush rib 41 and a second crush rib 42 are provided in the second case 22, and press and fix the substrate 3 to first case 21 by reaction force that is generated by being pressed against the substrate 3 and crushed when the both cases 21, 22 are joined together. A first guide 51 is provided in the first case 21, and guides the first crush rib 41 to the substrate 3 mounted in the first case 21 when the both cases 21, 22 are joined together. A second guide 52 is provided in the first case 21, and guides the second crush rib 42 to the substrate 3 when the both cases 21, 22 are joined together. |
| US08896171B2 |
Motor drive apparatus having a simplified assembling structure
In an ECU attached to a motor assembly, inverter FETs, which generate outputs for driving a motor, are electrically connected to a substrate. A plurality of screw holes is formed in a heat sink thereby to fix the substrate. A resin member is provided between the heat sink and the substrate and has a plurality of motor terminals and a resin mold, which integrally fix the motor terminals by molding the motor terminals. The motor terminal has an embedded part, a L-shaped substrate-side exposed part and a motor-side exposed side including a curbed part. The resin member and the substrate are tightened together and fixed to the heat sink. |
| US08896169B2 |
Methods and apparatus for mounting a motor controller on a stator assembly
A method for fabricating a motor is described that includes attaching a circuit board of a motor control assembly to a first side of a mounting adapter, and attaching a second side of the mounting adapter to a stator assembly. |
| US08896166B2 |
Electric drive unit
An electric drive unit includes an electric motor, which has a stator and a rotor, a gearbox, an electric circuit and a housing. The housing forms a motor compartment in which the electric motor is arranged and a gearbox chamber in which at least a part of the gearbox is arranged. The electric drive unit also includes a lubricating circuit in which a lubricating fluid is conveyed in order to lubricate and cool the gearbox and the rotor of the electric motor, the lubricating fluid circulating between the motor compartment and the gearbox chamber. The drive unit further includes a cooling circuit in which a cooling fluid is conveyed in order to cool the electric circuit and also the stator of the electric motor. The cooling fluid of the cooling circuit is connected to the lubricating fluid of the lubricating circuit in such a manner as to be able to exchange heat. |
| US08896161B2 |
Electronic device using solar cell
An electronic device comprises a solar cell a main body which includes a display unit, a battery, and a processing unit and a power controller which connects the solar cell and the main body and controls the electronic device so that power generated from the solar cell is stored in the battery or used in the main body depending on a state of the main body. |
| US08896160B2 |
Apparatus and method of controlling switch units, and battery pack and battery management apparatus comprising said apparatus
Disclosed are an apparatus and method of controlling switch units between a battery pack and a load, and a battery pack and a battery management system comprising the same. The apparatus comprises a memory for storing the turn-off number and order of first and second switch units connecting the battery pack with the load according to current ranges; and a control unit for equalizing the turn-off order of the first switch unit and the second switch unit with reference to the turn-off number and order in a current range corresponding to a magnitude level of discharge current of a battery. Accordingly, the present invention reduces the frequency of breakdown or malfunction of the switch units and increases the using period of the switch units. |
| US08896158B2 |
Variable capacitance circuit
A variable capacitance circuit includes: a prescribed node, to which an alternate current signal with a reference potential as a center voltage is applied; a first capacitor connected to the prescribed node; a second capacitor connected between the first capacitor and the reference potential; a third capacitor and a transistor for controlling capacitance, provide between a first node between the second capacitor and the first capacitor, and the reference potential; and a bias circuit which applies a first bias voltage to a second node between the third capacitor and the transistor. |
| US08896157B2 |
Power supply and power supplying system with remote power management function
The power supply includes a first power connector, a power conversion circuit, a control unit and a detection circuit. The first power connector includes a plurality of power terminals and a first detecting terminal. The power conversion circuit is coupled to the power terminals of the first power connector for converting an input voltage into an output voltage. The control unit is coupled to the power conversion circuit for controlling an operation of the power conversion circuit. The detection circuit is coupled to the control unit and the first detecting terminal of the first power connector for detecting if the first detecting terminal is connected or disconnected with a predetermined voltage terminal and correspondingly generating a power transmission status signal to the control unit. When the detection circuit detects the first detecting terminal is disconnected with the predetermined voltage terminal, the power transmission status signal is under a disabled status and the control unit controls the power conversion circuit not to generate or output the output voltage to the load according to the power transmission status signal. |
| US08896156B2 |
Automatic power supply selection for dual mode component
This disclosure is directed to techniques for automatically controlling a dual mode component of a device to operate according to a first mode or a second mode. According to these techniques, a device or circuit may include a first power supply input terminal and a dual mode component that includes a second power supply input terminal. The device or circuit further includes an automatic power supply selection module configured to compare a voltage level at the first power supply input terminal to a predetermined threshold, and based on the comparison, supply one of a first mode voltage level or a second mode voltage level to the second power supply input terminal. The first mode voltage level may cause the dual mode component to operate in a first mode, while the second mode voltage level may cause the dual mode component to operate in a second mode different than the first mode. |
| US08896153B2 |
Electric power supplying system
An electric power supplying system includes at least two systems each including a bus line which is formed by at least two conductors and on which an information signal representing information is superimposed on electric power, a power supply server which is connected to the bus line and which supplies the electric power, and a client connected to the bus line to receive the supply of the electric power from the power supply server. The two systems are connected to each other by connecting the bus lines using conductors. The conductors include a connector having at least two electrodes that connect with each of the conductors. The connector has a structure in which, when the connector is connected to the bus line, one of the electrodes is connected to the bus line before the other of the electrodes. |
| US08896152B2 |
Systems and methods for operating an uninterruptible power supply
An uninterruptible power supply includes a first input to receive input power from an input power source, an output to provide output power, a switch, a first logic power supply coupled to the switch, a back-up power source, a charger, a main logic power supply and power converter circuitry. The switch is configured to close when a characteristic of the input power is within a selected range. The first logic power supply is coupled to the switch and configured to receive input power from the input power source when the switch is closed. The first logic power supply has a first DC output. The back-up power source has a second DC output and is coupled to the first DC output at a common node. The charger has a third DC output and is coupled to the common node. The main logic power supply is coupled to the common node and is configured to receive at least one of the first DC output, the second DC output and the third DC output. The power converter circuitry is coupled to the backup power source and the first input and is configured to provides the output power derived from at least one of power at the first input and power from the backup power source. |
| US08896150B1 |
Multi-socket power adapter
The multi-socket power adapter includes a main housing unit and an extension unit mounted inside the main housing unit. The main housing unit includes a recess for the extension unit. A ribbon cable wound on a spool is housed inside the extension unit. The ribbon cable protrudes through the extension unit into the main housing unit to establish an electrical connection, which allows the extension unit to be used as a conventional extension cord. The extension unit includes a plurality of power plug sockets and a power switch for each plug socket so that power to each socket can be controlled. The main housing unit also includes a power switch and a power consumption monitor. |
| US08896139B2 |
Meta-mass vibration energy harvester
A meta-material vibration energy harvester includes a housing element encapsulating a multiplicity of oscillators capable of harvesting a significant percentage of the total mechanical energy diffusely distributed throughout the vibrating structure, the harvester design resulting in a rapid transfer of mechanical energy entering it via the housing element from the element to the oscillators wherein the energy remains trapped while accumulating over an extended time, the percentage of energy transfer primarily depending on the ratios of the sum of the oscillator masses to the sum of the housing mass and of the measure of the mass of the vibrating structure and of the width of the band spanned by the oscillators to its center frequency, both the relevant measure of the vibrating structure mass and the values of the mass and frequency ratios that maximize the percentage of internal energy transfer depending on the harvesting scenario. |
| US08896134B2 |
Film for back surface of flip-chip semiconductor
The film for back surface of flip-chip semiconductor according to the present invention is a film for back surface of flip-chip semiconductor to be formed on a back surface of a semiconductor element having been flip-chip connected onto an adherend, wherein a tensile storage elastic modulus at 23° C. after thermal curing is 10 GPa or more and not more than 50 GPa. According to the film for back surface of flip-chip semiconductor of the present invention, since it is formed on the back surface of a semiconductor element having been flip-chip connected onto an adherend, it fulfills a function to protect the semiconductor element. In addition, since the film for back surface of flip-chip semiconductor according to the present invention has a tensile storage elastic modulus at 23° C. after thermal curing of 10 GPa or more, a warp of the semiconductor element generated at the time of flip-chip connection of a semiconductor element onto an adherend can be effectively suppressed or prevented. |
| US08896126B2 |
Packaging DRAM and SOC in an IC package
An integrated circuit package includes a first memory die having a first set of connections, a second memory die arranged adjacent to the first memory die, the second memory die having a second set of connections, a first substrate having a first opening and a second opening, the first substrate having a third set of connections to connect to the first set of connections of the first memory die via the first opening and a fourth set of connections to connect to the second set of connections of the second memory die via the second opening, and a second substrate having a first integrated circuit disposed thereon. The first substrate is connected to the second substrate with the first integrated circuit disposed between the first substrate and second substrate. |
| US08896122B2 |
Semiconductor devices having gates including oxidized nickel
Schottky barrier semiconductor devices are provided including a wide bandgap semiconductor layer and a gate on the wide bandgap semiconductor layer. The gate includes a metal layer on the wide bandgap semiconductor layer including a nickel oxide (NiO) layer. Related methods of fabricating devices are also provided herein. |
| US08896117B2 |
Semiconductor device bonded by an anisotropic conductive film
A semiconductor device bonded by an anisotropic conductive film, the anisotropic conductive film including a conductive adhesive layer and an insulating adhesive layer stacked thereon, an amount of reactive monomers in the conductive adhesive layer being higher than an amount of reactive monomers in the insulating adhesive layer. |
| US08896111B2 |
Semiconductor device and method for manufacturing the same
In one embodiment, a semiconductor device includes a first semiconductor chip disposed on a circuit board, an adhesive layer fixing the first semiconductor chip to the circuit board, and a second semiconductor chip having an outer shape smaller than that of the first semiconductor chip. At least a part of the second semiconductor chip is embedded in the adhesive layer. The adhesive layer has a thickness in a range of 95 to 150 μm. The adhesive layer includes a cured product of a thermosetting resin whose thermal time viscosity at a time that the second semiconductor chip is embedded is in a range of 500 to 5000 Pa·s. |
| US08896110B2 |
Paste thermal interface materials
Embodiments of the present disclosure describe techniques and configurations for paste thermal interface materials (TIMs) and their use in integrated circuit (IC) packages. In some embodiments, an IC package includes an IC component, a heat spreader, and a paste TIM disposed between the die and the heat spreader. The paste TIM may include particles of a metal material distributed through a matrix material, and may have a bond line thickness, after curing, of between approximately 20 microns and approximately 100 microns. Other embodiments may be described and/or claimed. |
| US08896108B2 |
Semiconductor device with parasitic bipolar transistor
The invention enhances resistance to a surge in a semiconductor device having a semiconductor die mounted on a lead frame. An N type embedded layer, an epitaxial layer and a P type semiconductor layer are disposed on the front surface of a P type semiconductor substrate forming an IC die. A metal thin film is disposed on the back surface of the semiconductor substrate, and a conductive paste containing silver particles and so on is disposed between the metal thin film and a metal island. When a surge is applied to a pad electrode disposed on the front surface of the semiconductor layer, the surge current flowing from the semiconductor layer into the semiconductor substrate runs toward the metal island through the metal thin film. |
| US08896106B2 |
Semiconductor packages having multiple lead frames and methods of formation thereof
In accordance with an embodiment of the present invention, a semiconductor package includes a first lead frame having a first die paddle, and a second lead frame, which has a second die paddle and a plurality of leads. The second die paddle is disposed over the first die paddle. A semiconductor chip is disposed over the second die paddle. The semiconductor chip has a plurality of contact regions on a first side facing the second lead frame. The plurality of contact regions is coupled to the plurality of leads. |
| US08896105B2 |
Microelectronic devices and methods for manufacturing microelectronic devices
Microelectronic devices and methods for manufacturing microelectronic devices are disclosed herein. In one embodiment, a method includes constructing a radiation sensitive component in and/or on a microelectronic device, placing a curable component in and/or on the microelectronic device, and forming a barrier in and/or on the microelectronic device to at least partially inhibit irradiation of the radiation sensitive component. The radiation sensitive component can be doped silicon, chalcogenide, polymeric random access memory, or any other component that is altered when irradiated with one or more specific frequencies of radiation. The curable component can be an adhesive, an underfill layer, an encapsulant, a stand-off, or any other feature constructed of a material that requires curing by irradiation. |
| US08896098B2 |
Power storage device and method for manufacturing the same
To provide a power storage device with improved cycle characteristics and a method for manufacturing the power storage device, a power storage device is provided with a conductive layer in contact with a surface of an active material layer including a silicon layer after an oxide film, such as a natural oxide film, which is formed on the surface of the active material layer is removed. The conductive layer is thus provided in contact with the surface of the active material layer including a silicon layer, whereby the conductivity of the electrode surface of the power storage device is improved; therefore, cycle characteristics of the power storage device can be improved. |
| US08896097B2 |
Method of manufacturing capacitor, capacitor and method of forming dielectric film for use in capacitor
Provided are a method of manufacturing a capacitor capable of achieving a high dielectric constant property and a low leakage current, a capacitor, and a method of forming a dielectric film used in the capacitor. The capacitor is fabricated by forming a lower electrode layer on a substrate; forming a first TiO2 film having an interface control function on the lower electrode layer; forming a ZrO2-based film on the first TiO2 film; performing an annealing process for crystallizing ZrO2 in the ZrO2-based film, after forming the ZrO2-based film; forming a second TiO2 film which serves as a capacity film on the ZrO2-based film; and forming an upper electrode layer on the second TiO2 film. |
| US08896096B2 |
Process-compatible decoupling capacitor and method for making the same
Provided is decoupling capacitor device. The decoupling capacitor device includes a first dielectric layer portion that is deposited in a deposition process that also deposits a second dielectric layer portion for a non-volatile memory cell. Both portions are patterned using a single mask. A system-on-chip (SOC) device is also provided, the SOC include an RRAM cell and a decoupling capacitor situated in a single inter-metal dielectric layer. Also a method for forming a process-compatible decoupling capacitor is provided. The method includes patterning a top electrode layer, an insulating layer, and a bottom electrode layer to form a non-volatile memory element and a decoupling capacitor. |
| US08896093B2 |
Circuit configuration and manufacturing processes for vertical transient voltage suppressor (TVS) and EMI filter
A vertical TVS (VTVS) circuit includes a semiconductor substrate for supporting the VTVS device thereon having a heavily doped layer extending to the bottom of substrate. Deep trenches are provided for isolation between multi-channel VTVS. Trench gates are also provided for increasing the capacitance of VTVS with integrated EMI filter. |
| US08896090B2 |
Electrical fuses and methods of making electrical fuses
A fuse, a method of making the fuse and a circuit containing the fuse. The fuse includes an electrically conductive and conformal liner on sidewalls and the bottom of a trench; a copper layer on the conformal liner, a first thickness of the copper layer over the bottom of the trench in a lower portion of the trench greater than a second thickness of the copper layer over the sidewalls of the trench in an abutting upper portion of the trench; and a dielectric material on the copper layer in the trench, the dielectric material filling remaining space in the upper portion of said trench. |
| US08896087B2 |
Shallow trench isolation area having buried capacitor
A semiconductor chip includes a substrate including a surface, an active transistor region and a substrate contact region formed on the substrate, a shallow trench isolation (STI) area formed in the surface and disposed at least partially between the active transistor region and the substrate contact region, and at least one capacitor at least partially buried in the STI area. |
| US08896085B2 |
Semiconductor light-emitting element manufacturing method, lamp, electronic equipment, and mechanical apparatus
A semiconductor light-emitting element manufacturing method including: a first step in which a first n-type semiconductor layer is laminated onto a substrate in a first organometallic chemical vapor deposition apparatus; and a second step in which a regrowth layer, a second n-type semiconductor layer, an active layer, and a p-type semiconductor layer are sequentially laminated onto the aforementioned first n-type semiconductor layer in a second organometallic chemical vapor deposition apparatus. |
| US08896082B1 |
Solar cell systems and integration with CMOS circuitry
An integrated circuit-solar cell device comprising a well region of a first dopant type, a solar cell including: (i) a first region disposed in or on the well region, wherein the first region is of the first dopant type, and (ii) a second region disposed outside the well region, wherein the second region is of a second dopant type. The device further includes an integrated circuit including: (i) a first transistor of a first type disposed in or on the well region, and (ii) a second transistor of a second type disposed in or on the first major surface of the substrate and outside the well region. Power management circuitry selectively and electrically couples the solar cell to the battery when the integrated circuit is in an inactive mode. |
| US08896076B2 |
Photoelectric conversion element, photoelectric conversion system, and method for production of photoelectric conversion element
A photoelectric conversion element of an embodiment is a photoelectric conversion element which performs photoelectric conversion by receiving illumination light having n light emission peaks having a peak energy Ap (eV) (where 1≦p≦n and 2≦n) of 1.59≦Ap≦3.26 and a full width at half maximum Fp (eV) (where 1≦p≦n and 2≦n), wherein the photoelectric conversion element includes m photoelectric conversion layers having a band gap energy Bq (eV) (where 1≦q≦m and 2≦m≦n), and the m photoelectric conversion layers each satisfy the relationship of Ap−Fp |
| US08896068B2 |
Semiconductor device including source/drain regions and a gate electrode, and having contact portions
A method for manufacturing a semiconductor device includes the steps of: (a) forming a gate electrode on a substrate, forming source/drain regions and a channel forming region in the substrate, and forming on the source/drain regions a first interlayer insulating layer equal in height to the gate electrode; (b) forming in the first interlayer insulating layer groove-shaped first contact portions connected to the source/drain regions; (c) forming a second interlayer insulating layer on a whole surface; (d) forming hole-shaped second contact portions in portions of the second interlayer insulating layer on the first contact portion; and (e) forming on the second interlayer insulating layer wires connected to the second contact portions. |
| US08896062B2 |
Semiconductor device and method for forming the same
The invention provides a semiconductor device, including: a semiconductor base, on an insulation layer; source/drain regions abutting opposite first sides of the semiconductor base; and gates at opposite second sides of the semiconductor base, wherein the semiconductor base includes a cavity, and the insulation layer is exposed by the cavity. The invention also provides a method for forming a semiconductor device, including: forming a semiconductor bottom on an insulation layer; forming source/drain regions, the source/drain regions abutting opposite first sides of the semiconductor bottom; forming gates on opposite second sides of the semiconductor bottom; and removing a part of the semiconductor bottom to form a cavity in the semiconductor bottom, the cavity exposing the insulation layer. With the technical solutions provided by the invention, short-channel effects can be alleviated, and the resistance of the source/drain regions and parasitic capacitance can be reduced. |
| US08896060B2 |
Trench power MOSFET
A device includes a semiconductor region of a first conductivity type, a trench extending into the semiconductor region, and a conductive field plate in the trench. A first dielectric layer separates a bottom and sidewalls of the field plate from the semiconductor region. A main gate is disposed in the trench and overlapping the field plate. A second dielectric layer is disposed between and separating the main gate and the field plate from each other. A Doped Drain (DD) region of the first conductivity type is under the second dielectric layer, wherein an edge portion of the main gate overlaps the DD region. A body region includes a first portion at a same level as a portion of the main gate, and a second portion at a same level as, and contacting, the DD region, wherein the body region is of a second conductivity type opposite the first conductivity type. |
| US08896059B1 |
Semiconductor device including multi-layered gate, electronic device including the same, and method for forming the same
A semiconductor device including a multi-layered gate, is formed as a stacked structure of a plurality of layers having different work functions. |
| US08896058B2 |
Semiconductor device and method for producing same
It is an object to improve the breakdown voltage characteristics of a vertical semiconductor device having an opening and including a channel formed of two-dimensional electron gas in the opening. The vertical semiconductor device includes a GaN-based stacked layer 15 having an opening 28 and the GaN-based stacked layer 15 includes n-type GaN-based drift layer 4/p-type GaN-based barrier layer 6/n-type GaN-based contact layer 7. The vertical semiconductor device includes a regrown layer 27 located so as to cover the opening, the regrown layer 27 including an electron drift layer 22 and an electron supply layer 26, a source electrode S, and a gate electrode G located on the regrown layer. The gate electrode G covers a portion having a length corresponding to the thickness of the p-type GaN-based barrier layer and is terminated at a position on the wall surface, the position being away from the bottom portion of the opening. |
| US08896051B2 |
Semiconductor device and method for manufacturing the same
According to one embodiment, a semiconductor device includes a lower layer connection object, a stacked body, an insulating film, and a via. The stacked body has a plurality of insulating layers and a plurality of electrode layers alternately stacked on the lower layer connection object. The stacked body has a staircase structure unit. The via connects uppermost electrode layer at each step of the staircase structure unit and the lower layer connection object through the via hole. The via has an upper part provided on and in contact with a top face of the uppermost electrode layer, and a penetrating part provided to be thinner than the upper part inside the insulating film in the via hole. The penetrating part connects the upper part and the lower layer connection object. |
| US08896045B2 |
Integrated circuit including sidewall spacer
A memory cell includes a first electrode, a second electrode, a layer of phase change material extending from a first contact with the first electrode to a second contact with the second electrode, and a sidewall spacer contacting the second electrode and a sidewall of the layer of phase change material adjacent to the second contact. |
| US08896044B1 |
Organic light emitting diode display
An organic light emitting diode (OLED) display is provided. The OLED displayer includes a capacitor electrode disposed on a substrate. An insulation layer is disposed on the capacitor electrode. A first active layer is disposed on the insulation layer. The first active layer includes a first doped area, a second doped area, and a first channel area disposed between the first doped area and the second doped area. A first gate electrode is disposed on the first channel area of the first active layer. An organic light emitting diode is disposed on the substrate. The organic light emitting diode is electrically coupled to the second doped area of the first active layer. A driving power source line is disposed on the substrate and electrically coupled to the first doped area of the first active layer and to the capacitor. |
| US08896040B2 |
Magneto-resistive random access memory (MRAM) having a plurality of concentrically aligned magnetic tunnel junction layers and concentrically aligned upper electrodes over a lower electrode
A method for manufacturing a semiconductor memory device includes forming a magnetic tunnel junction layer on a lower electrode, forming a spacer having an annular shape on the magnetic tunnel junction layer, forming upper electrodes on both sidewall surfaces of the annular shaped spacer, removing the spacer, and etching the magnetic tunnel junction layer by using the upper electrodes as an etch mask. |
| US08896039B2 |
Solid-state imaging device, method for manufacturing the same, and electronic apparatus
A method for manufacturing a solid-state imaging device includes: forming pixels that receive incident light in a pixel array area of a substrate; forming pad electrodes in a peripheral area located around the pixel array area of the substrate; forming a carbon-based inorganic film on an upper surface of each of the pad electrodes including a connection surface electrically connected to an external component; forming a coated film that covers upper surfaces of the carbon-based inorganic films; and forming an opening above the connection surface of each of the pad electrodes to expose the connection surface. |
| US08896038B2 |
Solid-state imaging device and method of manufacturing the same
A solid-state imaging device with a semiconductor substrate; a pixel formation region in the substrate and including a pixel made of a photoelectric conversion element; and an element isolation portion in the substrate and including an element isolation insulating layer and an impurity element isolation region. The element isolation insulating layer is positioned in a surface of the substrate. The impurity element isolation region is positioned under the element isolation insulating layer and within the substrate. The impurity element isolation region has at least a portion with a width that is narrower than that of the element isolation insulating layer. The photoelectric conversion element extends to a position under the element isolation insulating layer of the element isolation portion. |
| US08896036B2 |
Solid-state imaging device, production method of the same, and imaging apparatus
A solid-state imaging device in which a pixel circuit formed on the first surface side of a semiconductor substrate is shared by a plurality of light reception regions and second surface side of the semiconductor substrate is the light incident side of the light reception regions. The second surface side regions of the light reception regions are arranged at approximately even intervals and the first surface side regions of the light reception regions e are arranged at uneven intervals. Respective second surface side regions and first surface side regions are joined in the semiconductor substrate so that the light reception regions extend from the second surface side to the first surface side of the semiconductor substrate. |
| US08896035B2 |
Field effect transistor having phase transition material incorporated into one or more components for reduced leakage current
Disclosed is a metal oxide semiconductor field effect transistor (MOSFET) having phase transition material incorporated into one or more components and an associated method. The MOSFET can comprise an asymmetric gate electrode having a phase transition material section (e.g., a chromium or titanium-doped vanadium dioxide (VO2) section) above the drain-side of the channel region. Additionally or alternatively, the MOSFET can comprise source and drain contact landing pads comprising different phase transition materials (e.g., un-doped VO2 and chromium or titanium-doped VO2, respectively). In any case, the phase transition material(s) are pre-selected so as to be insulative when the MOSFET is in the OFF state and the voltage difference between the drain region and the source region (VDS) is high in order to minimize leakage current and so as to be conductive when the MOSFET is in the ON state and VDS is high in order to maintain drive current. |
| US08896030B2 |
Integrated circuits with selective gate electrode recess
Integrated circuits including MOSFETs with selectively recessed gate electrodes. Transistors having recessed gate electrodes with reduced capacitive coupling area to adjacent source and drain contact metallization are provided alongside transistors with gate electrodes that are non-recessed and have greater z-height. In embodiments, analog circuits employ transistors with gate electrodes of a given z-height while logic gates employ transistors with recessed gate electrodes of lesser z-height. In embodiments, subsets of substantially planar gate electrodes are selectively etched back to differentiate a height of the gate electrode based on a given transistor's application within a circuit. |
| US08896027B2 |
Nitride semiconductor diode
Disclosed is a high performance nitride semiconductor having a reverse leak current characteristic with two-dimensional electron gas as a conductive layer. A desired impurity is diffused into or a nitride semiconductor to which a desired impurity is added is re-grown on the bottom surface and the side face portion of a recessed portion formed by dry etching using chlorine gas on the upper surface of a nitride semiconductor stacked film to increase resistance of the side face portion of the nitride semiconductor stacked film contacting an anode electrode, reducing the reverse leak current. |
| US08896024B1 |
Electrostatic discharge protection structure and electrostatic discharge protection circuit
Provided is an electrostatic discharge (ESD) protection structure including a first and a second well region adjacent to each other, a first and a second doped region disposed in the first well region, a fourth and a fifth doped region disposed in the second well region, and a third doped region disposed in the first region and extending into the second well region. The second doped region is disposed between the first and the third doped regions, forming a diode with the first doped region, forming, together with the first well region and the second well region, a first bipolar junction transistor (BJT) electrically connecting to the diode, and having no contact window disposed thereon. The fourth doped region is disposed between the third and the fifth doped regions, forming a second BJT with the second well region and the first well region. |
| US08896019B2 |
Thin-film encapsulation, optoelectronic semiconductor body comprising a thin-film encapsulation and method for producing a thin-film encapsulation
A thin-film encapsulation for an optoelectronic semiconductor body includes a PVD layer deposited by a PVD method, and a CVD layer deposited by a CVD method, wherein the CVD layer is applied directly on the PVD layer, and the CVD layer is etched back such that the CVD layer only fills weak points in the PVD layer. |
| US08896017B2 |
Vertical structure LEDs
A vertical structure light-emitting device includes a conductive support, a light-emitting semiconductor structure disposed on the conductive support structure, the semiconductor structure having a first semiconductor surface, a side semiconductor surface and a second semiconductor surface, a first electrode electrically connected to the first-type semiconductor layer, a second electrode electrically connected to the second-type semiconductor layer, wherein the second electrode has a first electrode surface, a side electrode surface and a second electrode surface, wherein the first electrode surface, relative to the second electrode surface, is proximate to the semiconductor structure; and wherein the second electrode surface is opposite to the first electrode surface, and a passivation layer disposed on the side semiconductor surface and the second semiconductor surface. |
| US08896014B2 |
Light-emitting element, manufacturing method thereof, and lighting device
A light-emitting element includes a conductive layer functioning as a first electrode, an electroluminescent layer, and a conductive layer functioning as a second electrode, and further includes an insulating material filling a defect portion in the electroluminescent layer so that the defect portion is sealed. In the light-emitting element, the conductive layer functioning as a second electrode overlaps with the conductive layer functioning as a first electrode with the electroluminescent layer and the insulating material interposed therebetween and is in contact with a top surface of the electroluminescent layer. |
| US08896012B2 |
Light emitting diode
A light-emitting diode includes a substrate, a first semiconductor layer above the substrate, an active layer above the first semiconductor layer, a second semiconductor layer above the active layer, wherein the active layer is between the first semiconductor layer and the second semiconductor layer a trench penetrating through the second semiconductor layer and the active layer to expose the first semiconductor layer a first electrode disposed at a bottom of the trench, wherein the first electrode includes at least one first finger, an insulating layer covering the first electrode, and a second electrode including at least one second finger on the insulating layer, wherein the second finger overlaps with the first finger and the second finger has a width smaller than that of the trench. |
| US08896011B2 |
Light emitting diode
AC LED according to the present invention comprises a substrate, and at least one serial array having a plurality of light emitting cells connected in series on the substrate. Each of the light emitting cells comprises a lower semiconductor layer consisting of a first conductive compound semiconductor layer formed on top of the substrate, an upper semiconductor layer consisting of a second conductive compound semiconductor layer formed on top of the lower semiconductor layer, an active layer interposed between the lower and upper semiconductor layers, a lower electrode formed on the lower semiconductor layer exposed at a first corner of the substrate, an upper electrode layer formed on the upper semiconductor layer, and an upper electrode pad formed on the upper electrode layer exposed at a second corner of the substrate. The upper electrode pad and the lower electrode are respectively disposed at the corners diagonally opposite to each other, and the respective light emitting cells are arranged so that the upper electrode pad and the lower electrode of one of the light emitting cells are symmetric with respect to those of adjacent another of the light emitting cells. |
| US08896009B2 |
Light emitting diode with two alternative mounting sides for mounting on circuit board
An exemplary light-emitting diode (LED) includes a substrate, a first electrode and a second electrode sandwiching the substrate therebetween, an LED chip electrically connected to the first electrode and the second electrode, a reflector located on the first electrode and the second electrode and surrounding the LED chip, and a first retaining wall mounted on an edge of the first electrode and a second retaining wall mounted on an edge of the second electrode. The first retaining wall and the second retaining wall are made of conductive material. The first retaining wall and the second retaining wall are at a same side of the LED. Outer surfaces of the first retaining wall and the second retaining wall are exposed out of the reflector. |
| US08896004B2 |
White LED, backlight using the same, and liquid crystal display device
Disclosed are a white LED, which has color reproducibility comparable with that of a cold-cathode tube and improved brightness, and a backlight and a liquid crystal display device comprising the white LED. The white LED comprises at least one light emitting element selected from ultraviolet light emitting diodes, purple light emitting diodes, ultraviolet light emitting lasers, and purple light emitting lasers, and a phosphor layer. The phosphor layer comprises a green phosphor satisfying formula 1, a blue phosphor satisfying formula 2 or 3, and a red phosphor satisfying formula 4 or 5: a trivalent cerium- and terbium-activated rare earth boride phosphor represented by formula 1: M1-x-yCexTbyBO3 wherein M represents at least one element selected from Sc (scandium), Y (yttrium), La (lanthanum), Gd (gadolinium), and Lu (lutetium); and x and y are respective numbers of 0.03 |
| US08895999B2 |
Organic light-emitting display device and method of manufacturing the same
A method of manufacturing an organic light-emitting display device is disclosed. The method includes: uniformly forming an active layer on an entire surface of a substrate on which an organic light-emitting diode, a thin film transistor (TFT), and a capacitor are to be formed; performing a first mask process on the active layer to form a pixel electrode of the organic light-emitting diode, a gate electrode of the TFT, and an upper electrode of the capacitor; performing a second mask process to form an insulating layer having openings that expose the pixel electrode, the upper electrode, and the active layer in a region of the TFT; performing a third mask process to form a source-drain electrode that contacts an exposed portion of the active layer; and performing a fourth mask process to form a pixel-defining layer (PDL) that exposes the pixel electrode and covers the TFT and the capacitor. |
| US08895998B2 |
Ceramic-based light emitting diode (LED) devices, components and methods
Devices, components and methods containing one or more light emitter devices, such as light emitting diodes (LEDs) or LED chips, are disclosed. In one aspect, a light emitter device component can include a ceramic body having a top surface, one or more light emitter devices mounted directly or indirectly on the top surface, and one or more electrical components mounted on the top surface and electrically coupled to the one or more light emitter devices, wherein the one or more electrical components can be spaced from the ceramic body by one or more non-metallic layers. Components disclosed herein can result in improved light extraction and thermal management. |
| US08895997B2 |
Carbon nanotube light emitting device, light source, and photo coupler
A plurality of electrodes, and carbon nanotubes disposed between the electrodes, at least part of the carbon nanotubes including a metal carbon nanotube are provided. The metal carbon nanotube generates heat upon passing of current to the electrodes and emits light by blackbody radiation, so that the emitted light has a wide emission wavelength region and can be modulated at high speed. This makes it possible to implement a continuum spectrum light source that can be modulated at high speed, which is suitable for use in information communication, electrical and electronic fields. |
| US08895995B2 |
Lateral silicon-on-insulator bipolar junction transistor radiation dosimeter
A radiation dosimeter includes a semiconductor substrate and a buried insulator layer disposed on the semiconductor substrate. The buried insulator layer has a plurality of charge traps. A semiconductor layer is disposed on the buried insulator layer. The semiconductor layer has an emitter, an intrinsic base, and a collector laterally arranged with respect to one another. In response to radiation exposure by the radiation dosimeter, positive charges are trapped in the plurality of charge traps in the buried insulator layer, the amount of positive charge trapped being used to determine the amount of radiation exposure. A method for radiation dosimetry includes providing a radiation dosimeter, where the radiation dosimeter includes a lateral silicon-on-insulator bipolar junction transistor having a buried insulator layer; exposing the radiation dosimeter to ionizing radiation; determining a change in one of the collector current and current gain of the radiation dosimeter; and determining an amount of the radiation dose based on the change in one of the collector current and current gain. |
| US08895993B2 |
Low gate-leakage structure and method for gallium nitride enhancement mode transistor
The present disclosure provides a semiconductor structure. The semiconductor structure includes a gallium nitride (GaN) layer on a substrate; an aluminum gallium nitride (AlGaN) layer disposed on the GaN layer; and a gate stack disposed on the AlGaN layer. The gate stack includes a III-V compound n-type doped layer; a III-V compound p-type doped layer adjacent the III-V compound n-type doped layer; and a metal layer formed over the III-V compound p-type doped layer and the III-V compound n-type doped layer. |
| US08895990B2 |
Light-emitting device and electronic apparatus having a power line with a notch portion
A light-emitting device includes a drive transistor for controlling the quantity of current supplied to a light-emitting element, a capacitor element electrically connected to a gate electrode of the drive transistor, and an electrical continuity portion for electrically connecting the drive transistor and the light-emitting element, these elements being disposed on a substrate. The electrical continuity portion is disposed on the side opposite to the capacitor element with the drive transistor disposed therebetween. |
| US08895989B2 |
Thin-film semiconductor device for display apparatus, method for manufacturing thin-film semiconductor device for display apparatus, EL display panel, and EL display apparatus
A thin-film semiconductor device for a display apparatus according to the present disclosure includes: a gate electrode above a substrate; a gate insulating film above the gate electrode; a semiconductor layer on the gate insulating film; a first electrode above the semiconductor layer; a second electrode in a same layer as the first electrode; an interlayer insulating film covering the first electrode and the second electrode; a gate line above the interlayer insulating film; and a power supply line in a same layer as the gate line and adjacent to the gate line. Furthermore, the gate electrode and the gate line are electrically connected via a first conductive portion, and the second electrode and the power supply line are electrically connected via a second conductive portion. |
| US08895988B2 |
Electrostatic discharge device and organic electro-luminescence display device having the same
An electrostatic discharge device and an organic electro-luminescence display device having the same are provided. The organic electro-luminescence display device includes an electrostatic discharge device including a metal pattern having an island shape on a substrate, an insulating layer on the metal pattern, a semiconductor pattern on the insulating layer, the semiconductor pattern corresponding to the metal pattern, a first electrode overlapping one end of the semiconductor pattern, and a second electrode overlapping the other end of the semiconductor pattern, and spaced from the first electrode, thereby preventing a current leakage, a signal distortion and a signal cross-talk to improve the reliability. |
| US08895974B2 |
Organic el display device and method for manufacturing the same
In an organic EL display device (100), an insulating layer (113) includes a first insulating film (113a) and a second insulating film (113b) provided thereabove, a plurality of upper electrodes (115c) are each provided to cover a corresponding one of a plurality of organic EL layers (115b), and a reflection film (114) is provided between the first insulating film (113a) and the second insulating film (113b), corresponding to a region N other than the a light emission region. The reflection film (114) reflects toward a sealing substrate (120) a portion of light generated in each organic EL layer (115b) which is diffused into the region N other than the light emission region so that the portion of the light is transmitted through a separation wall portion (116) and the sealing substrate (120) to be viewed as an image on the sealing substrate. |
| US08895970B2 |
Organic light-emitting display device and method of manufacturing the same
An organic light-emitting display device and a method of manufacturing the same. The organic light-emitting display device includes: an active layer that is formed by patterning a semiconductor layer formed by laser crystallization; a gate electrode that is disposed to correspond to a channel area of the active layer; a first insulating layer that is disposed between the active layer and the gate electrode; a second insulating layer that is disposed on the gate electrode; and first test patterns that are formed on the second insulating layer and contact source and drain regions of the active layer and the gate electrode, respectively. |
| US08895969B2 |
White organic light emitting device and display device using the same
A white organic light emitting device, with improved color shift characteristics and improved efficiency according to viewing angle changes by controlling conditions for designing an optical path in organic material layers between a cathode and an anode or adjusting interior or exterior thicknesses of the organic material layers, has a structure including a first electrode and layers between the first electrode and a second electrode satisfies an optical path condition represented by the following equation n a d a λ + ∑ j n j w d j w λ = 1.85 ∼ 2.15 with respect to emissions of the first and second stacks, where λ is an emission peak wavelength of the first stack or the second stack, na and da are a refractive index and a thickness of a transparent electrode selected from the first and second electrode, and nw and dw are a refractive index and a thickness of any one of the layers disposed between the first electrode and the second electrode, respectively. |
| US08895967B2 |
Organic electroluminescent display device
An organic electroluminescent display device is disclosed which includes: a lower substrate including a first substrate defined into red, green and blue sub-pixel regions, first and second switching elements formed in the red and green sub-pixel regions, first and second anodes each connected to the first and second switching elements, and a first organic light emission layer entirely formed on the first substrate provided with the first and second anodes; and an upper substrate including a second substrate, red and green color filter layers formed on the second substrate corresponding to the red and green sub-pixel regions, a third switching element formed on the second substrate corresponding to the blue sub-pixel region, a third anode connected to the third switching element, and a second organic light emission layer entirely formed on the second substrate provided with the red and green color filter layers and the third anode. |
| US08895966B2 |
Material for organic electroluminescence element, and organic electroluminescence element using same
Provided is a material for an organic electroluminescence device, which further has a bulky carbazolyl group at each of the 3-position and 6-position of its central carbazole skeleton, and which has a dibenzofuran skeleton or a dibenzothiophene skeleton at the N atom of the central carbazole skeleton through a linking group as required. Also provided is an organic electroluminescence device, including one or more organic thin film layers including a light emitting layer between a cathode and an anode, in which at least one layer of the organic thin film layers contains the material for an organic electroluminescence device. |
| US08895965B2 |
Photoelectric conversion element, production method for a photoelectric conversion element, solid-state image sensor, production method for a solid-state image sensor, electronic apparatus, photoconductor, production method for a photoconductor and multilayer transparent photoelectric conversion element
Provided is a photoelectric conversion element including a photoconductor containing a complex of a conductive polymer and/or polymer semiconductor and a protein containing at least one dye having a long-lived excited state. |
| US08895964B2 |
Organic EL element and production method thereof
A technology having resistance to moisture and oxygen, and in which the occurrence and expansion of non-light-generating portions, such as dark spots, are suppressed is provided. An organic EL element in which an organic functional layer including at least one or more light-emitting layers is arranged between a first electrode and a second electrode, wherein the organic functional layer includes a bipolar charge generation layer which generates electrons and holes, and one of the first electrode and the second electrode is a hole-receiving electrode. |
| US08895949B2 |
Nonvolatile memory device using a varistor as a current limiter element
Embodiments of the invention include a method of forming a nonvolatile memory device that contains a resistive switching memory element that has improved device switching performance and lifetime, due to the addition of a current limiting component disposed therein. The electrical properties of the current limiting component are configured to lower the current flow through the variable resistance layer during the logic state programming steps by adding a fixed series resistance in the resistive switching memory element of the nonvolatile memory device. In some embodiments, the current limiting component comprises a varistor that is a current limiting material disposed within a resistive switching memory element in a nonvolatile resistive switching memory device. Typically, resistive switching memory elements may be formed as part of a high-capacity nonvolatile memory integrated circuit, which can be used in various electronic devices, such as digital cameras, mobile telephones, handheld computers, and music players. |
| US08895943B2 |
Lithography system and method of processing substrates in such a lithography system
The invention relates to a lithography system comprising a plurality of lithography system units. Each lithography system unit comprises a lithography apparatus arranged in a vacuum chamber for patterning a substrate; a load lock system for transferring substrates into and out of the vacuum chamber; and a door for enabling entry into the vacuum chamber for servicing purposes. The load lock system and the door of each lithography system unit are provided at the same side and face a free area at a side of the lithography system, in particular the service area. |
| US08895939B2 |
Hard-surface disinfection system
UV hard-surface disinfection system that is able to disinfect the hard surfaces in a room, while minimizing missed areas due to shadows by providing multiple UV light towers that can be placed in several areas of a room such that shadowed areas are eliminated and that can be transported by a cart that is low to the ground such that the towers may be loaded and unloaded easily by a single operator. The system is able to be controlled remotely, such that during activation of the system, no operator is present, and to automatically cut power to all towers in the event that a person enters the room. |
| US08895938B2 |
Footwear sanitizing and deodorizing system exposing light-activated photocatalytic oxidation coating
Introducing ultraviolet (UV) light to activate a photocatalytic oxidation coating applied to interior portions of footwear alters the environment inside a shoe or other footwear to destroy microorganisms or inhibit their growth. Visible light can also be used to prevent further microorganism growth. Introducing forced air flow through the footwear removes dampness in and thereby deodorizes the footwear. A preferred embodiment comprises an adjustable shoe tree equipped with a UV germicidal light source and electronic safeguards that prevent appreciable leakage of UV radiation outside the shoe. |
| US08895936B2 |
Pixel array and image sensor including the same
A pixel array and an image sensor including the pixel array having improved sensitivity and can drive pixels with high resolution, according to embodiments. In embodiments, a pixel array may include a plurality of pixels having a pixel area and a logic area. The pixel array may include at least one of: (1) A photoelectric conversion unit in the pixel area of each of the pixels. (2) A pixel-area transistor disposed at a side of the photoelectric conversion unit in the pixel area. (3) A metal-0 layer on the pixel-area transistor. (4) A metal-1 layer on and/or over the metal-0 layer. (5) A light reception unit on and/or over the metal-1 layer, with the metal-1 layer being the top metal layer in the pixel area. |
| US08895935B2 |
High efficiency secondary and back scattered electron detector
An assembly for a charged particle detection unit is described. The assembly comprises a scintillator disc, a partially coated light guide a thin metal tube for allowing the primary charged particle beam to pass through and a photomultiplier tube (PMT). The shape of scintillator disc and light guide are redesigned to improved the light signal transmission thereafter enhance the light collection efficiency. A light guide with a conicoidal surface over an embedded scintillator improved the light collection efficiency of 34% over a conventional design. |
| US08895927B2 |
Detection device, sensor device and electronic apparatus
A detection device includes a plurality of pyroelectric elements and a detection circuit. The pyroelectric elements includes a first pyroelectric element through an n-th pyroelectric element serially provided between a detection node and a first power supply node with n being an integer equal to or greater than 2. Each of the first pyroelectric element through the n-th pyroelectric element has a direction of polarization that is set to the same direction. The detection circuit is connected to the detection node. |
| US08895925B2 |
Electromagnetic interference protection structure
A detector structure having a sensor for detecting energy impinging on the structure in the infrared and/or optical frequency band; an electronics section disposed behind the sensor for processing electrical signal produced by the sensor in response to the sensor detecting the infrared and/or optical energy; and an electrically conductive layer for inhibiting electromagnetic energy outside of the visible and infrared portions of the spectrum, such electrically conductive layer being disposed between impinging energy and the electronics section, such layer having a transmissivity greater than 90 percent in the visible and infrared portions of the spectrum and being reflective and/or dissipative to portions of the impinging energy outside of the visible and infrared portions of the spectrum. In one embodiment an electrically conductive layer having a substantially constant absorptivity to electromagnetic energy within the visible and infrared portions of the spectrum. In one embodiment, the layer is graphene. |
| US08895912B2 |
Phantom for contrast imaging calibration
An imaging phantom for contrast imaging calibration. The phantom includes a body defining at least one cavity having a directional configuration corresponding to at least one pre-determined direction of motion of the phantom. The phantom also includes at least one imaging capsule configured to match and be contained in the at least one cavity. The imaging capsule comprises a material having an imaging contrast different from that of the body. |
| US08895911B2 |
Optical encoder with misalignment detection and adjustment method associated therewith
An optical encoder includes a scale having diffraction gratings formed at predetermined pitches in a measurement axis direction, a detection head relatively movable with respect to the scale, the detection head including a light source portion configured to irradiate the scale with light, and a plurality of receiver portions configured to receive light reflected by or transmitted through the diffraction gratings of the scale, at different phases, and a signal processing device configured to perform signal processing to light reception signals output from the receiver portions of the detection head, to produce quadrature differential signals. The signal processing device is configured to calculate alignment adjustment monitor signals corresponding to a Lissajous radius of the quadrature differential signals in order to detect misalignment of the detection head with respect to the scale. |
| US08895903B2 |
Methods and apparatus for controlling the supply of power to a radiant heater of a cooking appliance
Methods and apparatus for controlling the supply of power to a radiant heater of a cooking hob. According to one implementation a method is provided that includes the use of a control circuit that is configured to deliver power to the radiant heater via first and second electrical paths. One control method includes supplying a first level of power to the radiant heater through a closed disconnection switch situated in the first electrical path while sensing a temperature of the cooking hob. Upon detecting that the temperature has reached or exceeded a predetermined temperature, the control circuit terminates the supply of power to the radiant heater through the first electrical path by opening the disconnection switch and for at least a period of time initiating the supply of a second level of power to the radiant heater through the second electrical path, the second level of power being less than the first level of power and sufficiently low to cause the radiant heater to cool. |
| US08895893B2 |
Process chamber and method for processing a material by a directed beam of electromagnetic radiation, in particular for a laser sintering device
A process chamber for a processing of a material by means of a directed beam of electromagnetic radiation is provided, which comprises an optical element (9) for coupling the beam (7) into the process chamber (10), wherein the optical element has a surface (9a) facing the inside of the process chamber, a wall section (12) surrounding the optical element (9), a first inlet (16) for a gas that is arranged at one side of the optical element (9) and designed such that an escaping first gas flow (18) strokes substantially tangentially over the surface (9a) of the optical element (9), a second inlet (23) for a gas, which is designed and arranged such that an escaping second gas flow (25) flows at a distance to the surface (9a) in substantially the same direction as the first gas flow (18). |
| US08895892B2 |
Non-contact glass shearing device and method for scribing or cutting a moving glass sheet
A non-contact glass shearing device and a method are described herein that vertically scribes or cuts a downward moving glass sheet to remove outer edges (beads) from the downward moving glass sheet. In addition, the non-contact glass shearing device and method can horizontally scribe or cut the downward moving glass sheet (without the outer edges) so that it can be separated into distinct glass sheets. |
| US08895885B2 |
Wire electrode for spark-erosion cutting
The invention relates to a wire electrode for spark-erosion cutting. The wire electrode comprises a core made of more than 50% by weight pure crystalline aluminum and/or one or more crystalline aluminum alloys, and comprises a coating layer encompassing the core and comprising copper, zinc, and/or a copper-zinc alloy. The proportion of the surface area of the core relative to the total cross-sectional area of the wire electrode is in the range from 60% to 95% along the entire length of the wire electrode. |
| US08895884B2 |
Tank type vacuum circuit breaker
A tank type vacuum circuit breaker uses a columnar or cylindrical insulation rod at a connection portion between an operating mechanism unit and a vacuum valve. The insulation rod is connected to the operating mechanism unit and the vacuum valve by rod-shaped pins. To prevent the insulation rod itself from falling, connection is made by shifting phases of the pins 90 degrees, respectively, each pin being connected to the operating mechanism unit and the vacuum valve. Accordingly, the falling of the insulation rod, the use of an insulation support tube and an insulation support for ensuring mechanical strength, are avoided. Further fastening of those supports by bolts or the like is not needed. Increases in the number of components, the size of the shape of assembly members around the insulation rod, and weight due to such increases, are prevented. |
| US08895870B2 |
Printed circuit board and method of manufacturing the same
A plurality of wiring traces and a plurality of lead wires for plating are formed on a base insulating layer. Each wiring trace and each lead wire for plating are integrally formed with each other. An electrode pad is provided at an end of each wiring trace, and the lead wire for plating is provided to extend from each electrode pad toward the opposite side to the wiring trace. A width of each lead wire for plating is set larger than a width of each wiring trace. |
| US08895869B2 |
Mounting structure of electronic component
Electrode protective films 13a and 13b are formed on the surface of the metal layer using imidazole preflux, as terminal electrodes 35a and 35b of an electronic component. The terminal electrodes of an electronic component on which the protective films are formed are fixed by electroconductive adhesives 33a and 33b supplied to mounting lands 40a and 40b. Thereby an electronic component mounting structure without change in resistance caused by electroconductive adhesives is provided. |
| US08895866B2 |
Printed circuit board structure
A printed circuit board structure includes a plurality of circuit layer plates stacked together in which each of the stacked circuit layer plates includes an epoxy resin plate body and a fabric structure completely encapsulated in the epoxy resin plate body, and each circuit layer plate stacked between two circuit layer plates is further provided with filler particles distributed in its epoxy resin plate body, and the two opposite and outermost circuit layer plates thereof have metal soldering pads on the outer surfaces of the epoxy resin plate body thereof, and the two opposite and outermost circuit layer plates do not have the filler particles in its epoxy resin plate body thereof. |
| US08895865B2 |
Conductive connections allowing XYZ translation
The embodiments relates generally to the use of conductive connections for electrically grounding a series of conductive substrates. More specifically the embodiments teach configurations of conductive connections that do not overly constrain relative motion between the connected conductive substrates. Conductive pressure sensitive adhesive is used to attach opposing ends of the conductive connectors to the conductive substrates. A substrate portion of the conductive connectors is scored by a cutting device such as a die cutter to reduce rigidity of the substrate portion. |
| US08895862B2 |
Substrate structure
A substrate structure for carrying plural heat generating elements is provided. The substrate structure includes a board, a patterned metal layer and plural heat dissipating channels. The board has an upper surface. The patterned metal layer is disposed on the board and includes a first electrode, a second electrode, plural first pads and plural second pads. The first pads and the second pads are alternatively disposed on the upper surface in parallel. Parts of the first (second) pads are electrically connected to the first (second) electrode. The other parts of first pads and the other parts of second pads are electrically connected to each other. Each first pad and the adjacent second pad define a device bonding area. The heat generating elements are respectively disposed in the device bonding areas. There are multiple trenches between the two adjacent device bonding areas. The heat dissipating channels are disposed in the trenches. |
| US08895857B2 |
Flame-retardant composition and insulated wire, and method for producing flame-retardant composition
A flame-retardant composition that is more excellent in heat resistance than a conventional flame-retardant composition. The flame-retardant composition contains silane-crosslinked polyolefin, polyolefin, a metallic hydrate, a phenolic antioxidant, a sulfurous antioxidant, a metallic oxide, and a copper inhibitor. The sulfurous antioxidant is preferably a benzimidazole compound, and the metallic oxide is preferably a zinc oxide. The silane-crosslinked polyolefin is preferably polyethylene having a density of 0.880 to 0.910 g/cm3 that is silane-crosslinked. The polyolefin is preferably polyethylene having a density of 0.880 to 0.910 g/cm3, or an olefin elastomer having a melting point of 140° C. or more. |
| US08895856B2 |
Compression connector and assembly for composite cables and methods for making and using same
A compression connector and assembly include an elongated, interiorly hollow tube, and at least one tubular sleeve, the tube including a first material exhibiting a first axial extrusion rate and the sleeve including a second material exhibiting a second axial extrusion rate, wherein the sleeve wall thickness is selected such that, when inserted into the tube and subjected to mechanical compression in a direction substantially orthogonal to the tube's exterior surface, deforms so that the first and second materials extrude axially at substantially the same rate. In some exemplary embodiments, the sleeve wall thickness may be selected to be thin, or the sleeve may include a multiplicity of axially spaced-apart corrugations formed in at least one exterior or interior surface. The assembly may include stranded composite wires, optionally with a tape covering only a portion of the composite wires. A method of making the compression connector is also described. |
| US08895851B2 |
Shielding of high voltage cables
A magnetically shielded cable arrangement, comprising at least two AC cables (201-203) comprising a spaced portion extending between two close portions of parallel cables, such spaced portion sequentially including a diverging portion, a widely spaced portion and a converging portion, and an EMF shielding system (1) laid over said at least two AC cables (201-203), said EMF shielding system (1) comprising a conductor (2, 3, 11, 12) having two branches (2, 3) forming a median portion (4, 5) and end portions (7-10), the median portion width being equal to or larger than the AC cables distance in the widely spaced portion and the width at the extremities of the end portions (7-10) being larger than the AC cables distance in the close portions and smaller than the AC cables distance in the widely spaced portion, said conductor (2, 3, 11, 12) comprising an inner electrical path (2a, 3a) and an outer electrical path (2e, 3e) connected together (11, 12) at relevant longitudinal ends. |
| US08895845B2 |
Photovoltaic device
Methods and apparatus are provided for converting electromagnetic radiation, such as solar energy, into electric energy with increased efficiency when compared to conventional solar cells. A photovoltaic (PV) unit, according to embodiments of the invention, may have a very thin absorber layer produced by epitaxial lift-off (ELO), all electrical contacts positioned on the back side of the PV device to avoid shadowing, and/or front side and back side light trapping employing a diffuser and a reflector to increase absorption of the photons impinging on the front side of the PV unit. Several PV units may be combined into PV banks, and an array of PV banks may be connected to form a PV module with thin strips of metal or conductive polymer applied at low temperature. Such innovations may allow for greater efficiency and flexibility in PV devices when compared to conventional solar cells. |
| US08895842B2 |
High quality TCO-silicon interface contact structure for high efficiency thin film silicon solar cells
A method and apparatus for forming solar cells is provided. In one embodiment, a photovoltaic device includes a first TCO layer disposed on a substrate, a second TCO layer disposed on the first TCO layer, and a p-type silicon containing layer formed on the second TCO layer. In another embodiment, a method of forming a photovoltaic device includes forming a first TCO layer on a substrate, forming a second TCO layer on the first TCO layer, and forming a first p-i-n junction on the second TCO layer. |
| US08895841B2 |
Carbon nanotube based silicon photovoltaic device
A photovoltaic device includes a silicon substrate, an intrinsic layer, a carbon nanotube structure and a first electrode. The silicon substrate has a front surface and a rear surface. The intrinsic layer is disposed on the front surface of the silicon substrate. The carbon nanotube structure is disposed on the intrinsic layer. The first electrode is disposed on the rear surface of the silicon substrate. |
| US08895838B1 |
Multijunction solar cell employing extended heterojunction and step graded antireflection structures and methods for constructing the same
Material and antireflection structure designs and methods of manufacturing are provided that produce efficient photovoltaic power conversion from single- and multijunction devices. Materials of different energy gap are combined in the depletion region of at least one of the semiconductor junctions. Higher energy gap layers are positioned to reduce the diode dark current and enhance the operating voltage by suppressing both carrier injections across the junction and recombination rates within the junction. Step-graded antireflection structures are placed above the active region of the device in order to increase the photocurrent. |
| US08895834B1 |
Solar tracker assembly
An assembly is disclosed for adjusting the position of a solar array or device to enable it to maintain a desired solar energy reception throughout each day's operation of the assembly. Solar panels are mounted on a first axle and a second axle, and the axles are mutually orthogonal. The assembly also includes a first motor for rotating the array and the panels relative to the first axle in a direction providing azimuth angle position adjustment and a second motor for rotating the array and the panels and the second axle in a direction providing elevation angle position adjustment. The motors are electrically connected to and powered by their respective solar panels. Divider circuits control the current fed into the motors to control the rotational movement in order to control the azimuth and elevation orientation of the panels and also control the orientation of the array so that it continually faces the sun throughout the diurnal operation of the assembly and so that it maintains the desired degree of solar energy reception throughout the day. The orientation of one of the panels enables it to reposition the assembly for operation at each successive sunrise. |
| US08895831B2 |
Method for synthesizing tone signal and tone signal generating system
An electronic piano includes a tone signal synthesizing system implemented by software, keys and key sensors monitoring the keys and reporting the key positions to the tone signal synthesizing system, and the tone signal synthesizing system includes damper model calculating modules for determining resistance against vibrations of wires of an a piano, a hammer model calculating module for determining force exerted on the wires, string model calculating modules for determining force exerted on an instrument body of the piano by the wires on the basis of the resistance and force exerted on the wires, an instrument body model calculating module for determining displacements of instrument body on the basis of the force exerted on the instrument body and an air model calculating module for determining a sound pressure at an observation point from the displacement of instrument body. |
| US08895830B1 |
Interactive game based on user generated music content
Systems and methods are provided herein relating to interactive gaming within a media sharing service. Game data, such as sets of notes extracted from the audio track of user generated videos or from audio samples, can be generated based on videos containing musical content or from audio content. A device can use the game data to facilitate an interactive game during playback of the user generated videos or audio samples. Players can press buttons, for example, corresponding to notes as the video with musical content is played within the game interface. Players can be scored for accuracy, and can play with other players in a multiplayer environment. In this sense, user generated video content or audio content can be transformed and used within a gaming interface to increase interaction and engagement between users in a media sharing service. |
| US08895829B2 |
Music playing movement display device, method and recording medium
A music playing movement display device includes CPU displaying a music playing movement image on a display unit based on music playing information, movement information, and structural data stored in RAM. the CPU determines whether to perform display of a music playing technique based on a music playing technique flag of the music playing information stored in the RAM, and, when determining to perform the display of the music playing technique, allows to change a display mode of the image corresponding to the music playing technique, compared to a display mode of a image corresponding to that of a case of not displaying the music playing technique. |
| US08895827B1 |
Percussion instrument dampening pad
A percussion instrument dampening pad (PIDP) that is designed to be attached to the vibrating surface of a drumhead, a drum, a cymbal or the like. The PIDP functions by reducing unwanted vibrations and overtones that occur when the drumhead or cymbal is struck. The PIDP is comprised of at least one composite upper section, a first vibration absorbent layer preferably comprised of polyurethane puron foam, and a second vibration absorbent layer preferably comprised of butyl rubber that is in contact with the vibrating surface of the drumhead, drum or the cymbal. The composite upper section is further comprised of a metallized layer, a fabric layer and an adhesive layer. The PIDP also includes indicia and a removable liner that is removed prior to attaching the exposed butyl rubber to the surface of a drumhead or the like. |
| US08895825B2 |
Methods and devices for muting a harmonica
The present invention provides methods and devices for attenuating sound emanating from a harmonica when played while practicing or performing by a player. The methods and devices include a sound blocking and reflecting means and, optionally, a sound absorbing means. |
| US08895824B2 |
Reverse bridge tension configuration for a stringed instrument
A reverse bridge tension configuration for a stringed instrument allows the stringed instrument to offset some of the tension felt by the bridge. For a typical stringed instrument such as a guitar, the tensioned strings are bound between the bridge and the headstock. However, the reverse bridge tension configuration loops the tensioned strings on a path that goes around the back of the instrument, through the body of the instrument, and back to the bridge. A reverse bridge is positioned on the corner of the soundboard and the back end so that the tensioned strings can loop around the back end without causing pressure damage to the outer surface of the instrument. Once the tensioned strings travel around the reverse bridge and into the body, channels are positioned within the body in order to guide the tensioned strings back to the bridge. |
| US08895819B1 |
Maize inbred PH1KTF
A novel maize variety designated PH1KTF and seed, plants and plant parts thereof. Methods for producing a maize plant that comprise crossing maize variety PH1KTF with another maize plant. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into PH1KTF through backcross conversion and/or transformation, and to the maize seed, plant and plant part produced thereby. Hybrid maize seed, plant or plant part produced by crossing the variety PH1KTF or a locus conversion of PH1KTF with another maize variety. |
| US08895818B2 |
Transgenic plants with enhanced agronomic traits
This disclosure describes screening a population of transgenic plants derived from plant cells transformed with recombinant DNA for expression of proteins with homeobox domains to identify plant cells of specific transgenic events that are useful for imparting enhanced traits to transgenic crop plants. Traits include enhanced nitrogen use efficiency, increased yield, enhanced water use efficiency, enhanced tolerance to cold stress and/or improved seed compositions. Also disclosed are transgenic seeds for growing a transgenic plant having the recombinant DNA in its genome and exhibiting the screened enhance trait. Also disclosed are methods for generating seed and plants based on the transgenic events. |
| US08895816B2 |
Pepper hybrid PX 09966947
The invention provides seed and plants of pepper hybrid PX 09966947 and the parent lines thereof. The invention thus relates to the plants, seeds and tissue cultures of pepper hybrid PX 09966947 and the parent lines thereof, and to methods for producing a pepper plant produced by crossing such plants with themselves or with another pepper plant, such as a plant of another genotype. The invention further relates to seeds and plants produced by such crossing. The invention further relates to parts of such plants, including the fruit and gametes of such plants. |
| US08895815B1 |
Soybean variety XB38AT13
A novel soybean variety, designated XB38AT13 is provided. Also provided are the seeds of soybean variety XB38AT13, cells from soybean variety XB38AT13, plants of soybean XB38AT13, and plant parts of soybean variety XB38AT13. Methods provided include producing a soybean plant by crossing soybean variety XB38AT13 with another soybean plant, methods for introgressing a transgenic trait, a mutant trait, and/or a native trait into soybean variety XB38AT13, methods for producing other soybean varieties or plant parts derived from soybean variety XB38AT13, and methods of characterizing soybean variety XB38AT13. Soybean seed, cells, plants, germplasm, breeding lines, varieties, and plant parts produced by these methods and/or derived from soybean variety XB38AT13 are further provided. |
| US08895807B2 |
RabG3b gene and protein thereof for regulating late stage xylem development, method for promoting plant biomass and transgenic plant comprising the same
There are provided a method for promoting plant biomass by overexpression of a gene coding a small GTP binding protein RabG3b or mutants thereof, a vector including the gene, a transgenic plant comprising the expression vector and a method for preparing the transgenic plant. |
| US08895799B2 |
Absorber forming crossbridge upon absorbing
Provided are an absorbent and an absorptive article containing the absorbent which has excellent water absorbability and leakage prevention ability, and has an intent to achieve reductions in the weight and thickness of an absorptive article.The absorbent comprises a polysaccharide that causes a gelation reaction in the presence of a polyvalent metal ion and a source of the polyvalent ion, in which the polyvalent ion is supplied simultaneously with or after dissolution and swelling of the polysaccharide. The absorptive article containing the absorbent can achieve excellent water absorbability and leakage prevention ability and thus reductions in the weight and thickness as the absorptive article. |
| US08895798B2 |
Method for altering an operation of an alkylation unit
One exemplary embodiment can be a method for altering an operation of an alkylation unit during a process upset. The method may include blocking an outlet of a settler to a separation zone, and recycling at least a portion of a hydrocarbon stream to the separation zone to prevent an uncontrolled pressure rise in one or more distillation columns during shutdown of an alkylation reactor. |
| US08895794B2 |
Process for producing high quality gasoline blending components in two modes
We provide a process for producing high quality gasoline blending components, comprising: a) operating an alkylation reactor in an alkylate mode wherein a gasoline blending component is made having a RON of 90 or higher; and b) operating the alkylation reactor in a distillate mode wherein a second gasoline blending component and a distillate product is made, and wherein the second gasoline blending component has a RON of 85 or higher. Also, we provide an alkylation process unit, comprising: a control system connected to an alkylation reactor, that enables the alkylation reactor to operate in both an alkylate mode that produces a gasoline blending component having a RON of 90 or higher and in a distillate mode that produces a second gasoline blending component having a RON of 85 or higher. |
| US08895791B2 |
Method of regenerating ruthenium catalysts suitable for hydrogenation
The present invention relates to a method of regenerating a ruthenium catalyst suitable for hydrogenation, which comprises flushing the catalyst with inert gas in a regeneration step until the original activity or part of the original activity has been attained. The method is particularly useful for ruthenium catalysts which are used for the hydrogenation of aromatics. |
| US08895786B2 |
Processes for increasing alcohol production
A process for reducing ethyl acetate and/or diethyl acetal concentration of a crude ethanol product by hydrolysis is disclosed. A portion of the water is initially separated from the crude ethanol product in a first column residue. Ethyl acetate in the first column distillate is hydrolyzed to form additional ethanol and acetic acid. Product ethanol is recovered in a second distillation column preferably in a side stream and acetic acid is removed in the second column residue. |
| US08895782B2 |
Alkynyl phenyl derivative compounds for treating ophthalmic diseases and disorders
Provided are alkynyl phenyl derivative compounds, pharmaceutical compositions thereof, and methods of treating ophthalmic diseases and disorders, such as age-related macular degeneration and Stargardt's Disease, using said compounds and compositions. |
| US08895780B2 |
Process for preparing N-H or N-alkyl 2-propynamide
Disclosed is a method for the synthesis of N—H or N-alkyl 2-propynamides useful as intermediate in the manufacture of pharmaceutically active ingredients. |
| US08895774B2 |
Process for producing isocyanates using diaryl carbonate
An object of the present invention is to provide a process that enables isocyanate to be produced stably over a long period of time and at high yield without encountering problems of the prior art during production of isocyanate without using phosgene. The present invention provides an isocyanate production process including the steps of: obtaining a reaction mixture containing an aryl carbamate having an aryl group originating in a diaryl carbonate, an aromatic hydroxy compound originating in a diaryl carbonate, and a diaryl carbonate, by reacting a diaryl carbonate and an amine compound in the presence of a reaction solvent in the form of an aromatic hydroxy compound; transferring the reaction mixture to a thermal decomposition reaction vessel; and obtaining isocyanate by applying the aryl carbamate to a thermal decomposition reaction, wherein the reaction vessel in which the reaction between the diaryl carbonate and the amine compound is carried out and the thermal decomposition reaction vessel for the aryl carbamate are different. |
| US08895772B2 |
Process for preparing bicalutamide
The present invention provide processes for the preparation of N-[4-Cyano-3-(trifluoro methyl)phenyl]-3-[(4-fluorophenyl)sulphonyl]-2-hydroxy-2-methyl propanamide (I).The present application also provides a method of purification of N-[4-Cyano-3-(trifluoro methyl)phenyl]-3-[(4-fluorophenyl)sulphonyl]-2-hydroxy-2-methyl propanamide (I) using ethyl acetate solvent resulting in the product, substantially free from process related impurities A, B, C and D. The crystalline product of the process according to the present invention having an XRDP pattern as per FIG. 1, is useful as an active pharmaceutical and has anti-androgenic activity. |
| US08895768B2 |
Cyclopara (hetero) arylene compound and method for producing same
Provided are a cyclopara(hetero)arylene compound and a method for producing the same. More specifically, provided is a cycloparaphenylene compound represented by Formula (I): wherein Ar1, Ar2, Ar3, and Ar4 are the same or different, and represent an optionally substituted divalent aromatic group or an optionally substituted divalent heteroaromatic group, and n1, n2, n3, and n4 are the same or different, and represent an integer of 1 or more. |
| US08895760B2 |
Process for the preparation of L-lactide of high chemical yield and optical purity
A process for the synthesis of 100% optically pure L(+)-lactide catalyzed by zinc and tin metal catalysts of less than 150 micron particle size is disclosed. The L-lactide obtained was further purified to obtain lactide of 100% optical purity and acid impurities less than 10 meq/kg. |
| US08895758B2 |
Forms of [R-(R*,R*)]-2-(4-fluorophenyl)-β, δ-Dihydroxy-5-(1-methylethyl)-3-phenyl-4-[(phenylamino)carbonyl]-1H-pyrrole-1-heptanoic acid calcium salt (2:1)
Novel forms of [R—(R*,R*)]-2-(4-fluorophenyl)-β,δ-dihydroxy-5-(1-methylethyl)-3-phenyl-4-[(phenylamino)carbonyl]-1H-pyrrole-1-heptanoic acid hemi calcium salt designated Form XX, Form XXI, Form XXII, Form XXIII, Form XXIV, Form XXV, Form XXVI, Form XXVII, Form XXVIII, Form XXIX, and Form XXX, characterized by their X-ray powder diffraction, solid-state NMR, and/or Raman spectroscopy are described, as well as methods for the preparation and pharmaceutical composition of the same, which are useful as agents for treating hyperlipidemia, hypercholesterolemia, osteoporosis, benign prostatic hyperplasia (BPH) and Alzheimer's disease. |
| US08895757B2 |
Process for the preparation of pyrazole carboxylic acid amides
The invention relates to a process for the preparation of 3-difluoromethyl-1-methyl-1H-pyrazole-4-carboxylic acid (9-dichloromethylene-1,2,3,4-tetrahydro-1,4-methano-naphthalen-5-yl)-amide by acylating the oxime oxygen of the compound of formula (VIII), in the presence of a solvent and an acylating agent of formula (XI) R1C(X)—CI (XI); wherein X is oxygen or sulfur; R1 is chloro if X is oxygen or sulfur; or R1 is C1-C6alkoxy, CH3—C(═CH2)—O—, phenoxy or trichloromethoxy if X is oxygen; and a) if R1 is chloro and the compound of formula (XI) was added to the compound of formula (VIII); reacting the so obtained product of formula (XIIa) wherein X is oxygen or sulfur; with the compound of formula (IX) b) if R1 is chloro and the compound of formula (VIII) was added to the compound of formula (XI); or R1 is C1-C6alkoxy, CH3—C(═CH2)—O—, phenoxy or trichloromethoxy if X is oxygen; reacting the so obtained product of formula (XII) wherein X is oxygen or sulfur; R1 is chloro if X is oxygen or sulfur; or R1 is C1-C6alkoxy, CH3—C(═CH2)—O—, phenoxy or trichloromethoxy if X is oxygen; with the compound of formula (IX). |
| US08895755B2 |
Intermediates for preparing dual-acting benzyl triazole antihypertensive agents having angiotensin II type I receptor antagonist activity and neprilysin-inhibition activity
The invention is directed to intermediates for preparing compounds having the formula: wherein: Ar, X, R3 ,and R5-7 are as defined in the specification, and pharmaceutically acceptable salts thereof. These compounds have AT1 receptor antagonist activity and neprilysin inhibition activity. |
| US08895754B2 |
Process to make UV radiation absorbing 2-phenyl-1,2,3,-benzotriazoles
The invention relates to an improved process for the manufacture of novel benzotriazoles as well to novel benzotriazoles obtained by the novel process. This novel economical process provides products in high purity and yields. |
| US08895749B2 |
4-(4-pyridinyl)-benzamides and their use as rock activity modulators
The present invention relates to novel 4-(4-pyridyl)-benzamides of the formula (I). The compounds I possess valuable therapeutic properties and are suitable, in particular, for treating diseases that respond to modulation of Rho kinases (ROCKs). R1 and R2 are, independently of each other, hydrogen, hydroxy, cyano, C1-C8-alkyl, C1-C8-haloalkyl, C1-C8-alkoxy or C1-C8-haloalkoxy; R3, R4, R5 and R6 are, independently of each other, hydrogen, hydroxy, halogen, cyano, C1-C8-alkyl, C1-C8-haloalkyl, C1-C8-alkoxy, C1-C8-haloalkoxy, amino, C1-C8-alkylamino or di-(C1-C8-alkyl)-amino; R7 is hydrogen, C1-C8-alkyl, C1-C8-haloalkyl, aryl or aryl-C1-C8-alkyl; R8 is a group of the formula —X—W, where X is a single bond, C1-C4-alkylene or C1-C4-alkylene-O—, where the alkylene group in the three last-mentioned radicals may be linear or branched and may be partly or fully halogenated and/or may be substituted by a hydroxyl group and/or may be interrupted by an oxygen atom; and W is a cyclic radical selected from phenyl and a 5- or 6-membered saturated, partly unsaturated or aromatic heterocyclic ring which contains as ring members 1, 2 or 3 heteroatoms selected from O, S and N and optionally 1 or 2 carbonyl groups; R9 is a group of the formula —Y—Z, where Z is hydrogen, halogen, OR11, NR12R13, S(O)m—R14, phenyl which may carry 1, 2, 3 or 4 substituents R15 or a 5- or 6-membered saturated, partly unsaturated or aromatic heterocyclic ring; and Y is linear or branched C1C4-alkylene which may be partly or fully halogenated and/or may be substituted by a hydroxyl group and/or a phenyl ring; or, in case Z is phenyl or the 5- or 6-membered heterocyclic ring as defined above, Y can also be a single bond. |
| US08895748B2 |
Synthesis for thiazolidinedione compounds
The present invention provides novel methods for synthesizing PPARγ sparing compounds, e.g., thiazolidinediones, that are useful for preventing and/or treating metabolic disorders such as diabetes, obesity, hypertension, and inflammatory diseases. |
| US08895747B2 |
Method and substances for preparation of N-substituted pyridinium compounds
Methods for the synthesis of N-substituted pyridinium compounds by using an N-heteroaryl substituted pyridinium salt (Zincke salt) and reacting it with a nucleophilic amine are provided. Novel purine-substituted pyridyl compounds, which may be useful reagents in the above reaction, are also disclosed. |
| US08895735B2 |
Preparation process of (6R)-tetrahydrobiopterin hydrochloride
A preparation process of (6R)-tetrahydrobiopterin hydrochloride is provided, which comprises hydrogenating L-biopterin in the presence of a catalyst of Pt group metal in the basic substrate containing solvent, potassium hydroxide and potassium dihydrogen phosphate to obtain (6R)-tetrahydrobiopterin hydrochloride, wherein the pH value of the basic substrate is controlled by potassium hydroxide and potassium dihydrogen phosphate in the range of about 10 to about 13. |
| US08895732B2 |
Process for the separation of enantiomers of 3,6-dihydro-1,3,5-triazine derivatives
Method for the chromatographic separation of compounds of the formula (I), in which R1, R2, R3, R4, R5, R6 have the meanings indicated in Claim 1, and acid-addition salts thereof, characterized in that the separation is carried out on a chiral ion-exchanger material. |
| US08895731B2 |
Triazine derivatives
The invention relates to novel intermediates for the preparation of substituted triazines used in particular in the cosmetic, detergent, coating, plastics and textile industries. The invention also relates to the processes for preparation of said intermediates and for the conversion of the latter into final products. |
| US08895727B2 |
Method for preparation of fluorine-18-labeled flumazenil using diaryliodonium salt precursor
Disclosed is the synthesis of [18F]flumazenil that is useful in imaging epileptic lesions by PET (positron emission tomography). A method for preparing [18F]flumazenil by reacting a diaryliodonium salt precursor with the positron-emitting radionuclide fluorine-18. [18F]flumazenil can be prepared from the diaryliodonium salt precursor in the presence of kryptofix2.2.2./potassium carbonate(K2.2.2./K2CO3) and TEMPO in dimethylformamide (DMF) at a high yield. |
| US08895725B2 |
Use of 9, 10-anthraquinone compounds
Use of 9,10-anthraquinone compounds of formula (I) or pharmaceutical salts thereof or plant extracts containing said compounds in the preparation of anti-HCV medicaments is disclosed, in which Y1 are Y2 are independently hydrogen, hydroxyl or groups of formula (II); and R1, R2, R3, R4, R5 and R6 are independently hydrogen, hydroxyl, carboxyl, cyano group, nitro group, groups of formula (III) or groups selected from those substituted or unsubstituted groups: amino, C1-C6 aliphatic hydrocarbon, C3-C7 cyclic aliphatic hydrocarbon, C1-C6 alkoxy, C2-C7 carbalkoxy, C1-C4 acyloxy, C6-C20 aryl, or 5 to 7 members heterocyclic or benzoheterocyclic thereof; or R5 and R6 form the group of formula (IV). The compounds of present invention are cheap, safe and effective because that they mostly come from traditional Chinese medicines and have better anti-HCV effects and lighter side effects. |
| US08895721B2 |
RNA interference mediating small RNA molecules
Double-stranded RNA (dsRNA) induces sequence-specific post-transcriptional gene silencing in many organisms by a process known as RNA interference (RNAi). Using a Drosophila in vitro system, we demonstrate that 19-23 nt short RNA fragments are the sequence-specific mediators of RNAi. The short interfering RNAs (siRNAs) are generated by an RNase III-like processing reaction from long dsRNA. Chemically synthesized siRNA duplexes with overhanging 3′ ends mediate efficient target RNA cleavage in the lysate, and the cleavage site is located near the center of the region spanned by the guiding siRNA. Furthermore, we provide evidence that the direction of dsRNA processing determines whether sense or antisense target RNA can be cleaved by the produced siRNP complex. |
| US08895719B2 |
Markers for pre-cancer and cancer cells and the method to interfere with cell proliferation therein
A novel family of human mitochondrial RNAs, referred to as chimeric RNAs, which are differentially expressed in normal, pre-cancer and cancer cells, are described. Oligonucleotides targeted to the chimeric RNAs are provided. The described oligonucleotides or their analogs can be used for cancer diagnostics and cancer therapy as well as for research. In one embodiment of this invention, these oligonucleotides hybridize with the sense or with the antisense mitochondrial chimeric RNAs, and the result of the hybridization is useful to differentiate between normal proliferating cells, pre-cancer cells and cancer cells. In another embodiment of the invention, the compositions comprise oligonucleotides that hybridize with the human chimeric RNAs resulting in cancer cell and pre-cancer cell death, while there is no effect in normal cells, constituting therefore, a novel approach for cancer therapy. |
| US08895718B2 |
RNA interference mediating small RNA molecules
Double-stranded RNA (dsRNA) induces sequence-specific post-transcriptional gene silencing in many organisms by a process known as RNA interference (RNAi). Using a Drosophila in vitro system, we demonstrate that 19-23 nt short RNA fragments are the sequence-specific mediators of RNAi. The short interfering RNAs (siRNAs) are generated by an RNase III-like processing reaction from long dsRNA. Chemically synthesized siRNA duplexes with overhanging 3′ ends mediate efficient target RNA cleavage in the lysate, and the cleavage site is located near the center of the region spanned by the guiding siRNA. Furthermore, we provide evidence that the direction of dsRNA processing determines whether sense or antisense target RNA can be cleaved by the produced siRNP complex. |
| US08895717B2 |
Delivery of siRNA by neutral lipid compositions
The present invention relates to the fields of molecular biology and drug delivery. In certain embodiments, the present invention provides methods for the delivery of a siNA (e.g., a siRNA) to a cell via a neutral (non-charged) liposome. These methods may be used to treat a disease, such as cancer. |
| US08895714B2 |
Biological products
There is disclosed antibody molecules containing at least one CDR derived from a mouse monoclonal antibody having specificity for human CD22. There is also disclosed a CDR grafted antibody wherein at least one of the CDRs is a modified CDR. Further disclosed are DNA sequences encoding the claims of the antibody molecules, vectors, transformed host cells and uses of the antibody molecules in the treatment of diseases mediated by cells expressing CD22. |
| US08895713B2 |
Clostridial neurotoxins with altered persistency
The invention relates to a polypeptide comprising: (a) a HC-domain or fragment thereof of the neurotoxic component of a clostridial toxin; and (b) a first LC domain or fragment thereof of the neurotoxic component of a clostridial toxin; and (c) at least one further LC domain or fragment thereof of the neurotoxic component of a clostridial toxin wherein the first and the at least one further LC domain may be the same or different from each other, and wherein each of said fragments of said first and of said at least one further LC domain still exhibits proteolytic activity. |
| US08895708B2 |
Pasteurisation process for microbial cells and microbial oil
A protocol for pasteurizing microbial cells is disclosed. The protocol has three stages, a first heating stage, a second plateau stage at which the cells are held at a (maximum and) constant temperature, and a third cooling stage. The heating and cooling stages are rapid, with the temperature of the cells passing through 40 to 80° C. in no more than 30 minutes in the heating stage. The heating rate is at least 0.5° C./minute and during cooling is at least −0.5° C./minute. The plateau maximum temperature is from 70 to 85° C. By plotting the pasteurization protocol on a time (t, minutes) versus temperature (T, ° C.) graph, a trapezium is obtained having an area less than 13,000° C. minute. This results in a smaller energy input and a better quality oil results having a peroxide value (POV) of less than 1.5 and an anisidine value (AnV) of less than 1.0. |
| US08895705B2 |
Antibodies against a proliferating inducing ligand (APRIL) and methods of use thereof
The present invention relates to a binding compound which binds to human APRIL. More specifically the invention provides, compositions of anti-APRIL specific antibodies and methods to use such antibodies in modulating the biological activity APRIL, particularly in inflammatory diseases, inhibition of cell proliferation and cancer. |
| US08895704B2 |
High affinity antibodies that neutralize Staphylococcus enterotoxin B
Provided herein are antibodies that specifically bind and neutralize Staphylococcus enterotoxin B. In addition, nucleic acids encoding such antibodies, and cells that express such antibodies are provided. Also provided are methods for treating diseases mediated by, and for neutralizing Staphylococcus enterotoxin B. |
| US08895703B2 |
CA125 gene and its use for diagnostic and therapeutic interventions
The CA125 gene has been cloned and multiple repeat sequences as well as the carboxy terminus have been identified. The CA125 molecule comprises three major domains: an extracellular amino terminal domain (Domain 1); a large multiple repeat domain (Domain 2); and a carboxy terminal domain (Domain 3) which includes a transmembrane anchor with a short cytoplasmic domain. An amino terminal extension is present. The molecular structure is dominated by a repeat domain comprising 156 amino acid repeat units. More than 60 repeat units have been identified, sequenced, and contiguously placed in the CA125 domain structure. The repeat units encompass an interactive disulfide bridged C-enclosure and the site of OC125 and M11 binding. The repeat sequences demonstrated 70-85% homology to each other. Expression of the repeats was demonstrated in E. coli. The CA125 molecule is anchored at its carboxy terminal through a transmembrane domain and a short cytoplasmic tail. |
| US08895699B2 |
Stabilized compounds having secondary structure motifs
The present invention provides novel stabilized crosslinked compounds having secondary structure motifs, libraries of these novel compounds, and methods for the synthesis of these compounds libraries thereof. The synthesis of these novel stabilized compounds involves (1) synthesizing a peptide from a selected number of natural or non-natural amino acids, wherein the peptide comprises at least two moieties capable of undergoing reaction to promote carbon-carbon bond formation; and (2) contacting the peptide with a reagent to generate at least one crosslinker and to effect stabilization of a secondary structure motif. The present invention, in a preferred embodiment, provides stabilized p53 donor helical peptides. Additionally, the present invention provides methods for disrupting the p53/MDM2 binding interaction comprising (1) providing a crosslinked stabilized a-helical structure; and (2) contacting the crosslinked stabilized a-helical structure with MDM2. |
| US08895698B2 |
Binding partners of antibodies specific for dendritic cell antigens
The present invention relates to the field of diagnostics, therapeutics and immunological reagents. More particularly, the present invention provides binding partners of antibodies specific for dendritic cell (DC) antigens. The present invention further provides diagnostic and/or therapeutic agent based on the binding partners or antibodies specific for the binding partners. |
| US08895692B2 |
Fused ring compound and method for producing same, polymer, organic thin film containing those, and organic thin film device and organic thin film transistor comprising such organic thin film
It is an object of the present invention to provide a fused ring compound which can exhibit sufficient charge transport properties and which has excellent solubility in a solvent. The fused ring compound according to the present invention is represented by the following general formula (1), wherein R11 and R12 each independently represent a hydrogen atom, an alkyl group having 1 to 20 carbon atoms, an alkoxy group, an alkylthio group, an alkylamino group, an alkoxycarbonyl group, an optionally substituted aryl group having 6 to 60 carbon atoms, an optionally substituted heterocyclic group having 4 to 60 carbon atoms, or a cyano group, provided that at least one of R11 and R12 is not a hydrogen atom; R13 and R14 each independently represent a monovalent group, and n and m each independently denote an integer of 0 to 2; and Y11 and Y12 are each independently a divalent group comprising a sulfur atom, an oxygen atom, a nitrogen atom, a selenium atom or a tellurium atom. |
| US08895689B2 |
Production of polymers from waste cooking oil
An alkyd resin formed by reacting waste cooking oil, one or more aromatic polycarboxylic acids, aliphatic polycarboxylic acids, or esterified polymerization products, and one or more polyols. |
| US08895688B2 |
Halogen-free flame retarding materials based on bisphenol triazole resins and polymers
The invention provides halogen-free, bisphenol triazole resins and polymers having exceptional flame retarding properties, related compositions and methods of making and use thereof. |
| US08895678B2 |
Cross-linkable silicone composition and cross-linked product thereof
A cross-linkable silicone composition comprising at least the following components: (A) an organopolysiloxane represented by an average unit formula and containing phenyl and alkenyl groups; (B) an organopolysiloxane represented by a general formula and containing phenyl and alkenyl groups; (C) an organopolysiloxane having in one molecule at least one phenyl group and two silicon-bonded hydrogen atoms; and (D) a hydrosilylation catalyst, can be cross-linked by a hydrosilylation reaction and forms a solid body which has high hardness at room temperature and becomes significantly soft or a liquefied at high temperature. |
| US08895674B2 |
Method for providing a side-chain dendrimer vesicle
A method disclosed for making a side-chain dendrimer vesicle. The method includes the steps of: At first, there is provided a random copolymer with a narrow distribution of molecular weights by active polymerization and chemical modification. Then, chemical modification is executed to graft various generations of dendrimers to the random copolymer to provide a side-chain dendritic random copolymer with various generations. Two steps of emulsification are taken to induce macromolecular self-assembling of the side-chain dendritic random copolymer solution to form the macromolecular vesicle. The side-chain dendrimer includes C10˜C18 hydrophobic alkyl chains. |
| US08895660B2 |
Poly(butylene-co-adipate terephthalate), method of manufacture, and uses thereof
A method for preparing poly(butylene terephthalate-co-adipate)copolymer includes reacting (i) poly(butylene terephthalate-co-adipate)oligomers, wherein the oligomers comprise at least one polymer residue derived from a polyethylene terephthalate component and a quencher, with (ii) a chain extender under conditions sufficient to form the poly(butylene terephthalate-co-adipate)copolymer. |
| US08895659B2 |
Polypropylene homopolymers with high heat deflection temperature, high stiffness and flowability
The invention relates to a polypropylene composition showing a high melt flow rate and simultaneously high stiffness and a process for the production thereof. The invention further relates to a material comprising the inventive polypropylene. |
| US08895655B2 |
Automotive lamp extension molding
[Problem to be Solved] The present invention has an object to provide an automotive lamp extension molding comprising a resin composition having a low specific gravity, being excellent in the balance of heat resistance and fluidity, and being excellent in gloss and brightness feeling of the surface of the molded article. [Solution] The automotive lamp extension molding according to the present invention comprises a resin composition comprising 50 to 95 mass % of a polyphenylene ether (A), and having a specific gravity in the range of 1.00 to 1.12. The reduced viscosity (measured at 30° C. using a chloroform solvent) of the (A) component is preferably 0.25 to 0.45 dl/g, and more preferably 0.25 to 0.38 dl/g. |
| US08895649B2 |
Flame retardant polycarbonate compositions, methods of manufacture thereof and articles comprising the same
Disclosed herein is a flame retardant composition comprising 10 to 90 weight percent of a linear polycarbonate; 5 to 50 weight percent of a polysiloxane-polycarbonate copolymer; where the polysiloxane-polycarbonate copolymer comprises 10 weight percent or more of polysiloxane and where the molecular weight of the polysiloxane is 30,000 grams per mole or greater; and 1 to 20 weight percent of a phosphazene compound; where all weight percents are based on the total weight of the composition. |
| US08895648B2 |
Phosphorus-containing flame retardants
A flame-retardant resin composition comprises a base resin (A), such as a polyester, polyamide or polycarbonate resin, and an organophosphorus compound (B) having at least one of the following formulas (I), (II) and (III): where A is selected from O, S, SO2, a single bond, alkyl, and —CH2—P1; P1 is a phosphorus-containing group of the formula: R1 and R2 are the same or different and each is selected from H, O-alkyl, O-aryl, alkyl, aryl, and OM; R3 is H or alkyl; M=Na, K, Zn, Al, Ca; a is an integer from 0 to 4, provided that a is at least 1 unit for each polymer chain; n is an integer from 1 to 100,000 and m is an integer from 0 to 100,000. |
| US08895644B2 |
Resin composition and lighting fixture components made of the same
Disclosed is a resin composition including a thermoplastic resin (A), carbon fibers (B), graphite particles (C), an absorbent (D) selected from the group consisting of calcium hydroxide, zeolite, and hydrotalcite, and an antioxidant (E) or a combination of an antioxidant (E) and a compound (F) selected from a compound group consisting of compounds represented by CnHn+2 (OH)n wherein n represents an integer of 4 or greater, alkoxy forms derived from compounds represented by the following formula (2), trehalose, sucrose, lactose, maltose, melicitose, stachyose, curdlan, glycogen, glucose, and fructose. A lighting fixture component made of this resin composition is also disclosed. |
| US08895643B2 |
Cold-pressed mats of lignocellulosic material having improved cold tack and a process for their production
Cold-pressed mats of lignocellulosic material having a Push Off Test extension equal to at least 85% of that of a mat made with a urea-formaldehyde resin are produced from a lignocellulosic material and binder system. These mats are produced at ambient temperature by separately adding each component of the binder system to the lignocellulosic material, blending the lignocellulosic material and binder system to coat the lignocellulosic material with the binder system, forming the coated lignocellulosic material into the desired form and applying pressure to the formed lignocellulosic material to obtain the desired thickness. The binder system includes: (i) at least one polyfunctional isocyanate and (ii) at least one aqueous dispersion of an adhesive or tackifier. |
| US08895639B2 |
Ink set, ink jet recording apparatus, and recorded article
An ink set is provided which includes a first ink containing a first pigment, water, and a glycol ether having an HLB value, measured by Davies method, in the range of 4.2 to 8.0, and a second ink substantially not containing the glycol ether. The second ink contains a second pigment and water. |
| US08895636B2 |
Producing rigid polyurethane foams and rigid polyisocyanurate foams
Rigid polyurethane foams or rigid polyisocyanurate foams with low brittleness are produced by the reaction of polyisocyanate polyetherester polyols based on aromatic dicarboxylic acids obtained by esterification of a dicarboxylic acid composition containing aromatic dicarboxylic acids and aliphatic dicarboxylic acids, fatty acids, aliphatic or cycloaliphatic diols having 2 to 18 carbon atoms or alkoxylates thereof, and a polyether polyol having a functionality of not less than 2. |
| US08895635B2 |
Blowing agent compositions of hydrochlorofluoroolefins
The present invention relates to foam products made with blowing agent compositions comprising at least one hydrochlorofluoroolefin (HCFO) used in the preparation of Namable thermoplastic compositions. The HCFOs of the present invention include, but are not limited to, 1-chloro-3,3,3-trifluoropropene (HCFO-1233zd), particularly the trans-isomer, 2-chloro-3,3,3-trifluoropropene (HCFO-1233xf), dichloro-fluorinated propenes, and mixtures thereof. The blowing agent compositions of the present invention are used with coblowing agents including carbon dioxide, atmospheric gases, hydrofluorocarbons (HFC), hydrofluoroolefins (HFO), alkanes, hydrofluoroethers (HFE), and mixtures thereof. Preferred HFCs used as coblowing agents in the present invention include, but are not limited too, 1,1,1,2-tetrafluoroethane (HFC-134a), 1,1-difluoroethane (HFC-152a), 1,1,1-trifluoroethane (HFC-143a), pentafluorethane (HFC-125), difluoromethane (HFC-32). The blowing agent compositions are useful in the production of low density insulating foams with improved k-factor. |
| US08895634B2 |
Process for the production of expanded plastic materials, in particular PVC-based polymeric foams and a formulation of a polymeric blend for effecting said process
A perfected process for the production of expanded plastic materials, comprising a hot molding phase of a starting polymeric blend inside a mold, wherein the heating of said blend is effected by making the same a heat source, by triggering an exothermic reaction in its interior. With respect to the known art in the field, the process of the invention allows an improvement in the heating of the polymeric mass inside the mold, reducing the times necessary for effecting it and homogenizing the thermal values inside this mass. |
| US08895633B2 |
Cross-linked polyaminocarboxylates for the removal of metal ions from aqueous solutions
The cross-linked polyaminocarboxylates for the removal of metal ions from aqueous solutions of the present invention are cross-linked anionic polyelectrolytes CAPE 6 and CAPE 9, containing pH-responsive amino acid residues. The cross-linked anionic polyelectrolytes have been synthesized via cycloco-polymerization and ter-polymerization of a diallylammonioethanoate monomer (90 mol %) and a cross-linker, 1,1,4,4-tetraallylpiperazinium dichloride (10 mol %) in the absence of SO2 (CAPE 6) and in the presence of SO2 (CAPE 9), respectively. For the sorbents CAPE 6 and CAPE 9, the efficiency of Cu2+ removal at an initial metal concentration of 200 ppb was found to be 77.5% and 99.4%, respectively. Treatment of real wastewater samples spiked with Cu2+ ions showed the excellent ability of the cross-linked anionic polyelectrolytes to adsorb metal ions. |
| US08895631B1 |
Nanofilaments of catalytic materials for chemical process improvements
A Fischer-Tropsch process including the steps of providing a reactor having a substrate element with a surface and a plurality of elongated micro-structures of catalyst material attached to the substrate surface The catalyst material includes at least one of cobalt, iron, or ruthenium and the micro-structures have a width of less than about 1 um and a length at least five times the width. A carbon compound and hydrogen are injected into the reactor such that at least a portion of the carbon compound and hydrogen contact the catalyst material. The carbon compound and hydrogen are reacted with the catalyst at a temperature between about 150° F. and about 400° F. |
| US08895626B1 |
Small molecule xanthine oxidase inhibitors and methods of use
Small molecule xanthine oxidase inhibitors are provided, as well as methods for their use in treating gout or hyperuricemia. |
| US08895623B2 |
Intrathecal or epidural administration of 3-[(1S,25)-3-(dimethylamino)-1-ethyl-2-methylpropyl]phenol
The present invention relates to a method of providing pain management in a subject wherein the administration of the composition does not result in any non-central nervous system mediated systemic effect in the subject. In particular, the present invention relates to a method of administering 3-[(1S,2S)-3-(dimethylamino)-1-ethyl-2-methyl-propyl]-phenol in a space that is void of thrombocytes. |
| US08895620B2 |
Pest controlling composition and method for controlling pest
The present invention provides a composition having an excellent controlling activity on a pest. The composition comprising a compound represented by Formula (1) and one or more 1-(2,6-dichloro-α,α,α-trifluoroparatolyl)pyrazole compound(s) selected from Group (A) shows an excellent controlling activity on a pest. Group (A): a group consisting of acetoprole, ethiprole, fipronil, vaniliprole, pyriprole and pyrafluprole. |
| US08895619B2 |
Use of 1,3-diphenylprop-2-en-1-one derivatives for treating liver disorders
The invention provides 1,3-diphenylprop-2-en-1-one derivatives and pharmaceutical compositions comprising the same for treating liver disorders, in particular those requiring the reduction of plasma level of biochemical markers such as amino-transferases. The 1,3-diphenylprop-2-en-1-one derivatives of General Formula (I) have hepatoprotective properties and can be used in methods for treating liver disorders involving the pathological disruption, inflammation, degeneration, and/or proliferation of liver cells, such as liver fibrosis or fatty liver disease. |
| US08895615B1 |
Composition and method for treating neurological disease
Disclosed are compositions comprising amantadine, or a pharmaceutically acceptable salt thereof, and one or more excipients, wherein at least one of the excipients modifies release of amantadine. Methods of administering the same are also provided. |
| US08895613B2 |
Fluorosubstituted-(3R,4R,5S)-5-guanidino 4-acetamido-3-(pentan-3-yloxy)cyclohex-1-enecarboxylic acid compound, ester and use thereof
The present invention relates to novel neuraminidase activity inhibitors and use thereof for prophylaxis and treatment of influenza infection, that is to fluorosubstituted4-acetamido-5-guanidino-3-(pentan-3-yloxy)cyclohex-1-enecarboxylic acids and their esters of the general formula 1, pharmaceutically acceptable salts and/or hydrates thereof, wherein R is hydrogen, an optionally substituted C1-C5alkyl, C2-C5alkenyl or C2-C5alkynyl; Rf is CH2F or CHF2. A pharmaceutical composition is provided, a method for its preparation, as well as a method for prophylaxis and treatment of viral diseases. |
| US08895608B2 |
Sulfonamide anti-viral compounds
Disclosed herein are compounds and related compositions for the treatment of viral infection, including RNA viral infection, and compounds that can modulate the RIG-I pathway in vertebrate cells, including compounds that can activate the RIG-I pathway. |
| US08895605B2 |
Pyrrolidine-substituted flavones as radio-sensitizers for use in the treatment of cancer
The present invention relates to a combination for the treatment of cancer wherein the combination exhibits a synergistic effect. The combination comprises radiation and at least one cyclin dependent kinase (CDK) inhibitor selected from the compounds of formula I or a pharmaceutically acceptable salt or a solvate thereof. The present invention also relates to a method for the treatment of cancer, which method comprises administering to a patient in need of such a treatment, a therapeutically effective amount of the combination. The present invention also relates to the use of a CDK inhibitor selected from the compounds of formula I as a radiosensitizer that enhances the efficacy of radiotherapy for the treatment of cancer, particularly head and neck cancer. |
| US08895600B2 |
Non peptidic 14-3-3 inhibitors and the use thereof
The present invention refers to compounds with inhibitory activity against 14-3-3 proteins and their use in the treatment of tumors, in particular chronic myeloid leukemia. The invention also provides methods for the identification of 14-3-3 protein inhibitors. |
| US08895595B2 |
Microbicidal composition
Synergistic microbicidal compositions containing N-methyl-1,2-benzisothiazolin-3-one. |
| US08895594B2 |
Microbicidal composition
Synergistic microbicidal compositions containing N-methyl-1,2-benzisothiazolin-3-one. |
| US08895590B2 |
Epothilone compounds, preparation method and use thereof
Epothilone compounds represented by formula (I), their preparation methods and their use for preparing medicines are disclosed. The epothilone compounds are prepared by bioconversion and chemosynthesis or chemical modifications using epothilones or their derivatives as starting materials. Said epothilone compounds can be used to treat proliferative diseases. |
| US08895584B2 |
Inhibitors of c-fms kinase
The invention is directed to compounds of Formula I: wherein Z, X, J, R2 and W are set forth in the specification, as well as solvates, hydrates, tautomers and pharmaceutically acceptable salts thereof, that inhibit protein tyrosine kinases, especially c-fms kinase. Methods of treating autoimmune diseases; and diseases with an inflammatory component; treating metastasis from ovarian cancer, uterine cancer, breast cancer, prostate cancer, lung cancer, colon cancer, stomach cancer, hairy cell leukemia; and treating pain, including skeletal pain caused by tumor metastasis or osteoarthritis, or visceral, inflammatory, and neurogenic pain; as well as osteoporosis, Paget's disease, and other diseases in which bone resorption mediates morbidity including rheumatoid arthritis, and other forms of inflammatory arthritis, osteoarthritis, prosthesis failure, osteolytic sarcoma, myeloma, and tumor metastasis to bone with the compounds of Formula I, are also provided. |
| US08895583B2 |
Soluble guanylate cyclase activators
This inventions relates to compounds having the structure Formula I and pharmaceutically acceptable salts thereof which are soluble guanylate cyclase activators. The compounds are useful for treatment or prevention of cardiovascular diseases, endothelial dysfunction, diastolic dysfunction, atherosclerosis, hypertension, pulmonary hypertension, angina pectoris, thromboses, restenosis, myocardial infarction, strokes, cardiac insufficiency, pulmonary hypertonia, erectile dysfunction, asthma bronchiale, chronic kidney insufficiency, diabetes, or cirrhosis of the liver. |
| US08895578B2 |
Carboxamide, sulfonamide and amine compounds and methods for using the same
Disclosed are carboxamide, sulfonamide and amine compounds, as well as pharmaceutical compositions and methods of use. One embodiment is a compound having the structure in which R1, R2, R4, D, E, J, T, p, q and x are as described herein. In certain embodiments, a compound disclosed herein activates the AMPK pathway, and can be used to treat metabolism-related disorders and conditions. |
| US08895576B2 |
Methods of use of cyclopamine analogs
The invention provides methods for treating various conditions using derivatives of cyclopamine having the following formula: |
| US08895575B2 |
1 H-pyrrolo[2,3-b]pyridine derivatives
1H-Pyrrolo[2,3-b]pyridine compounds are inhibitors of cell proliferation/cell vitality and can be employed for the treatment of tumours. |
| US08895574B2 |
Benzyloxypyrimidine derivative, agricultural/ horticultural insecticide comprising derivative and method for using same
A benzyloxypyrimidine derivative represented by the formula (I) wherein R1 is an alkyl group, a cycloalkyl group, an alkenyl group, an alkynyl group, a haloalkyl group, a haloalkenyl group, a haloalkynyl group, an alkoxyalkyl group and the like; R2 and R3 are each a hydrogen atom, an alkyl group and the like; X is an alkyl group, a cycloalkyl group, an alkenyl group, an alkynyl group, a haloalkyl group, a haloalkenyl group, a haloalkynyl group, a trialkylsilyl group and the like; A is a oxygen atom and the like, and m is an integer of 0-5, or a salt thereof, and an agrohorticultural insecticide containing the compound as an active ingredient and a method of use thereof. |
| US08895562B2 |
Piperazin-1-yl-trifluoromethyl-substituted-pyridines as fast dissociating dopamine 2 receptor antagonists
The present invention relates to piperazin-1-yl-trifluoromethyl-substituted-pyridines that are fast dissociating dopamine 2 receptor antagonists, processes for preparing these compounds, pharmaceutical compositions comprising these compounds as an active ingredient. The compounds find utility as medicines for treating or preventing central nervous system disorders, for example schizophrenia, by exerting an antipsychotic effect without motor side effects. |
| US08895560B2 |
Opioid antagonists
Certain quinolizidine and octahydropyridopyrazine compounds, pharmaceutical compositions, and methods of their use, inter alia, as opioid receptor antagonists are disclosed. |
| US08895556B2 |
Compounds and method for treatment of cancer
The invention relates to a compound of Formula I: and/or a pharmaceutically-acceptable salt, hydrate, solvate, tautomer, optical isomer, E-isomer, Z-isomer, or combination thereof, wherein the remaining substituents are described herein; and a composition comprising the thiosemicarbazone and/or the semicarbazone. The invention also relates to a method of administration of a thiocarbazone and/or a semicarbazone; and use thereof to treat a cancer. |
| US08895551B2 |
Acrylamide compounds and the use thereof
The invention relates to acrylamide compounds of Formula I mentioned below. The invention is also directed to the use compounds of Formula I to treat or prevent a disorder responsive to the blockade of calcium channels, and particularly N-type calcium channels. Compounds of the present invention are especially useful for treating pain. |
| US08895550B2 |
Triazolopyridine compounds as PIM kinase inhibitors
Provided herein are methods of treating diseases mediated by PIM-1 and/or PIM-2 and/or PIM-3 kinases by administering to a mammal in need thereof a therapeutically effective amount of a compound of Formula I: in which B, R1, R1a, R2, R3, R4, R5, R6, R7, R10 and R11 have the meanings given in the specification. |
| US08895548B2 |
Pharmaceutical composition for treating alzheimer's disease
A pharmaceutical composition for treating Alzheimer's disease containing a compound represented by the general formula (I): wherein ring A is an optionally substituted carbocyclic group or an optionally substituted heterocyclic group; E is lower alkylene, etc.; X is S, O, or NR1; R1 is a hydrogen atom or lower alkyl; R2, R2b, R3a, R3b, R4a and R4b are each independently a hydrogen atom, halogen, hydroxy, etc.; n and m are each independently an integer of 0 to 3; n+m is an integer of 1 to 3; and R5 is a hydrogen atom, optionally substituted lower alkyl, etc.; its pharmaceutically acceptable salt, or a solvate thereof as an active ingredient. |
| US08895546B2 |
Administration of benzodiazepine compositions
The invention relates to pharmaceutical compositions comprising one or more benzodiazepine drugs for nasal administration, methods for producing and for using such compositions. |
| US08895543B2 |
Vinca derivatives
The present invention relates to derivatives of vinca alkaloids. Pharmaceutical compositions containing these compounds as well as processes of preparation and treatment of various conditions are also disclosed. |
| US08895542B2 |
Medicinal fusidic acid cream made using sodium fusidate and incorporating a biopolymer and a process to make it
Disclosed is a medicinal cream that includes flisidic acid which is made in situ under an oxygen-free environment using sodium fusidate. The fusidic acid is made by dissolving the sodium fusidate in a co-solvent under inert gas purging and under vacuum, and converting the sodium fusidate to fusidic acid in situ by adding an acid under stirring, The disclosed medicinal cream also includes a biopolymer and a cream base comprising at least one of each of a primary and secondary emulsifier, a waxy material, and water. |
| US08895537B2 |
Compositions and methods for treating cardiovascular diseases
The present specification discloses pharmaceutical compositions, methods of preparing such pharmaceutical compositions, and methods and uses of treating a cardiovascular disease in an individual using such pharmaceutical compositions. |
| US08895534B2 |
Boron containing small molecules
Novel monosubstituted and disubstutituted oxaboroles and pharmaceutical compositions containing such oxaboroles are provided, which are useful for treating bacterial infections, as well as combinations of these oxaboroles with at least one additional therapeutically effective agent. |
| US08895532B2 |
Use of hyaluronic acid for the preparation of compositions intended for improving in particular the protective function of the skin, the eye and the mucous membranes
The present invention relates to the use of hyaluronic acid for the preparation of compositions intended for improving the protective function of the skin, the eye and the mucous membranes, in particular of the upper and lower airways and the intestinal mucosa. |
| US08895530B2 |
Method of reducing intraocular pressure in humans
Provided herein is a method of reducing intraocular pressure (IOP) in humans using N6-cyclopentyladenosine (CPA), CPA derivatives or prodrugs or enhanced cornea permeability formulations of CPA. In one embodiment, the invention is directed to CPA derivatives or prodrugs that are permeable to the cornea. In another embodiment, the invention is directed to uses of certain compounds in human subjects for reducing and/or controlling elevated or abnormally fluctuating IOPs in the treatment of glaucoma or ocular hypertension (OHT). |
| US08895524B2 |
Viral microRNA
The present invention relates, in general, to micro RN As and, in particular, to viral microRNAs expressed by Herpes Simplex Vims 1 (HSV-1) or Herpes Simplex Virus 2 (HSV-2), to agents that inhibit such microRNAs and to methods of treatment based on the use of such agents. |
| US08895515B2 |
Cosmetic composition for skin cell regeneration mimicking extracellular matrix
The present invention relates to a cosmetic composition which mimics the extracellular matrix to stimulate the regeneration of skin cells, and more particularly to a cosmetic composition which contains active ingredients consisting of low-molecular-weight materials, which easily permeate through the skin, at a composition ratio similar to that in the extracellular matrix. The cosmetic composition stimulates the repair of the skin to maintain homeostasis and is effective for the regeneration of skin cells. |
| US08895513B2 |
Personal care compositions with acidified pectins
Personal care compositions are provided that include acidified pectins at a concentration of about 2 to about 5% by weight. The acidified pectin includes a low ester pectin with a degree of esterification of about 30 to about 50 and a pH of about 2 to about 4. Desirably, the personal care composition is characterized as a viscous, fluid gel. Also provided are methods for preparing personal care compositions and methods for the use of personal care formulations. |
| US08895510B2 |
Pan-selectin inhibitor with enhanced pharmacokinetic activity
Compounds, compositions and methods are provided for treatment of diseases or complications associated therewith, in which a selectin plays a role. More specifically, particular glycomimetics and uses thereof are described. For example, use of particular glycomimetics for treating sickle cell disease or a cancer involving a selectin, or complications associated with either, is described. |
| US08895509B2 |
MIR-200 family induces mesenchymal-to-epithelial transition (MET) in ovarian cancer cells
The present invention provides a method of treating an ovarian cancer, the method comprising delivering one or more miR-200 family members to a mammalian subject in need thereof in an amount effective to treat the ovarian cancer. Also provided are methods of preventing metastasis of an ovarian cancer, the method comprising delivering one or more miR-200 family members to a mammalian subject in need thereof in an amount effective to prevent metastasis. Further provided are methods of sensitizing an ovarian cancer to a cytotoxic therapy, the method comprising delivering one or more miR-200 family members to a mammalian subject in need thereof in an amount effective to sensitize the ovarian cancer to the cytotoxic therapy. The invention also contemplates methods of reducing epithelial-to-mesenchymal transition (EMT) in an ovarian cancer or cancer cell as well as methods of inducing mesenchymal-to-epithelial transition (MET). |
| US08895508B2 |
Methods for corneal endothelial proliferation using bFGF sustained-release gelatin hydrogel particles
The present invention aims to provide a corneal endothelium cell proliferation accelerator and a therapeutic agent for a disease relating to corneal endothelium damage, which are administered into the anterior chamber. bFGF is released in a sustained manner by forming bFGF sustained-release gelatin hydrogel particles wherein bFGF is carried on gelatin hydrogel. Therefore, the proliferation of corneal endothelium cells can be accelerated persistently by administration of a preparation containing the bFGF sustained-release gelatin hydrogel particles into the anterior chamber, and diseases relating to corneal endothelium damage can be treated. |
| US08895507B2 |
Modulation of synaptogenesis
Soluble proteins, e.g. Hevin, can trigger synapse formation; and other soluble proteins, e.g. SPARC antagonize this activity. Such proteins are synthesized in vitro and in vivo by astrocytes. Methods are provided for protecting or treating an individual suffering from adverse effects of deficits in synaptogenesis, or from undesirably active synaptogenesis. |
| US08895503B2 |
Pharmaceutical composition for transnasal administration of peptide hormones or cytokines
A method for nasal administration of a pharmaceutical composition comprising a hydrophilic bioactive substance and any one of (a) to (c): (a) a peptide having the amino acid sequence shown in SEQ ID NO:1; (b) a peptide having the same amino acid sequence as shown in SEQ ID NO:1 except that one or several amino acids are deleted, substituted and/or added, the peptide having nasal mucosal permeability; (c) a peptide having an amino acid sequence represented by the reverse sequence of (a) or (b), the peptide having nasal mucosal permeability, with the proviso that a C-terminal amidated peptide is excluded. A hydrophilic bioactive substance having a low transmucosal absorption capability which has conventionally been able to be administered by only injection can be nasally administered. Such a pharmaceutical composition is useful for improvement of the pain and the inconvenience of patients caused by administration by injection. |
| US08895502B2 |
β2-glycoprotein I peptide inhibitors
Therapeutic peptides (and peptoids) for preventing or inhibiting tissue damage associated with ischemia and/or reperfusion are provided, along with peptides (and peptoids) for preventing or inhibiting cancerous tissue growth. The peptides are derived from β2-glycoprotein I. Pharmaceutical and veterinary compositions comprising the peptides are also provided. Methods of using the peptides to prevent or inhibit tissue damage associated with ischemia and/or reperfusion and/or to prevent or inhibit tissue damage or the growth of cancerous tissue are also provided. |
| US08895500B2 |
Modified human tumor necrosis factor receptor-I polypeptide or fragment thereof, and method for preparing same
The present invention relates to a modified human tumor necrosis factor receptor-1 polypeptide which is capable of binding to a tumor necrosis factor in vivo or ex vivo, or to a fragment thereof. The modified human tumor necrosis factor receptor-1 polypeptide or the fragment thereof according to the present invention exhibit improved binding affinity to the tumor necrosis factor. |
| US08895495B2 |
Functional fragrance precursor
The present invention relates to a class of fragrance precursor compounds comprising one or more of the compounds derived from the reaction of X—OH and an aldehyde or ketone, the fragrance precursor compounds being of the formula X—O—C(R)(R*)(OR**) wherein R is a C6-24 alkyl group, a C6-24 aralkyl group or a C6-24 alkaryl group; R* is H or a C6-24 alkyl group, a C6-24 aralkyl group or a C6-24 alkaryl group; R** is H or X; X—O representing a moiety derived from X—OH, and wherein X—OH is a compound selected from the group consisting of surfactants, fabric softeners, softener precursor ester amines, softener precursor amido amines, hair conditioners, skin conditions, saccharides and polymers. In a second aspect it relates to a method of preparing such precusors. Further the invention relates to compositions, comprising the precursor of the invention. |
| US08895493B2 |
Stable non-aqueous liquid compositions comprising a cationic polymer in particulate form
The need for a stable, compact composition providing improved fabric care benefit, that is also convenient to use, can be met by incorporating a cationic cellulose polymer into a non-aqueous composition, using a non-aqueous dispersant. Such compositions have good physical stability, with little or no clumping of the cationic polymer in particulate form. |
| US08895490B2 |
Food grade compressor lubricant
The invention relates to an improved food-grade-lubricant useful as hydraulic oil, circulating oil, drip oil, general purpose oil, grease base oil, cable oil, chain oil, spindle oil, gear oil, and compressor oil for equipment in the food service industry. Specifically, it relates to a composition comprising at least one polyalphaolefin base fluid, at least one food grade polyolester base fluid, and at least one food grade performance additive. |
| US08895485B2 |
Methods and compositions comprising cement kiln dust having an altered particle size
Methods and compositions are disclosed that comprise cement kiln dust having a mean particle size that has been altered. An embodiment discloses a method of preparing cement kiln dust comprising: providing cement kiln dust having an original particle size; and altering the mean particle size of the cement kiln dust from the original size by grinding, separating, or a combination thereof. Another embodiment discloses a well treatment fluid comprising: cement kiln dust having a mean particle size that has been altered from its original size by grinding, separating, or a combination thereof; and water. |
| US08895482B2 |
Constraining pyrite activity in shale
Degeneration of shale caused by oxygen in aqueous drilling, fracturing and completion fluids is minimized by introducing imidazolines modified so that they will be attracted efficiently to pyrites in the shale, thereby forming a protective coating on the pyrites. Inhibiting oxidation of the pyrites sharply reduces physical degradation of the shale in the presence of drilling, fracturing and completion fluids carrying oxygen. The imidazoline is an ionic salt or a beatine. |
| US08895481B2 |
Viscoelastic surfactant acid treatment
A method of treating a subterranean formation penetrated by a wellbore involves introducing an acid treatment fluid through the wellbore into the formation. The treatment fluid is formed from a zwitterionic viscoelastic surfactant, an acid in an amount to provide the treatment fluid with an initial pH of ≦0 and a rheology enhancer. The treatment fluid has a high viscosity at the initial pH and a lower viscosity when the pH of the treatment fluid is raised to an intermediate pH of from greater than 0 to about 5. |
| US08895477B2 |
Method for preparing a gelling and viscosifying agent for drilling mud and the product thereof
A method for preparing lignin graft copolymer comprising: reacting lignocellulosic materials with an acrylic compound by bulk condensation under nitrogen atmosphere in the presence of a non-oxidizing strong organic acid as catalyst; separating the reaction mixture to obtain a solid phase mainly containing lignocellulosic materials and a liquid phase containing lignin graft copolymer and unreacted acrylic compound; and removing solvent from the liquid phase to obtain the lignin graft copolymer. |
| US08895472B2 |
Agent for reducing nicotine and harmful components in tobacco leaves for use in field cultivation of tobacco
One aspect of the invention provides an agent for reducing nicotine and harmful components in tobacco leaves for use in the field cultivation of tobacco. In one embodiment, the agent contains (in a weight percentage): salicylic acid 0.005-0.16%, naphthaleneacetic acid 0-0.003%, indoleacetic acid 0-0.015%, and clean water added to 100%. The composition can significantly reduce nicotine and harmful components in tobacco leaves by applying it to tobacco plant in top pruning period of tobacco. The combination of salicylic acid, naphthaleneacetic acid and indoleacetic acid provides synergic effect for reducing nicotine. The nicotine-reducing agent also can result in a yield increase and improve the aroma of tobacco. |
| US08895471B2 |
Chiral3-(benzylsulfinyl)-5,5-dimethyl-4,5-dihydroisoxazole derivatives and 5,5-dimethyl-3-[(1h-pyrazol-4-ylmethyl)sulfinyl]-4,5-dihyddroisoxazole derivatives, method for the production thereof, and use of same as herbicides and plant growth regulators
The invention relates to 3-(benzylsulfinyl)-5,5-dimethyl-4,5-dihydroisoxazole derivatives and 5,5-dimethyl-3-[(1H-pyrazol-4-ylmethyl)sulfinyl]-4,5-dihydroisoxazole derivatives of the formula (I) and their salts processes for their preparation and their use as herbicides and plant growth regulators, in particular as herbicides for the selective control of harmful plants in crops of useful plants. |
| US08895470B2 |
Herbicidal compositions comprising 4-amino-3-chloro-5-fluoro-6-(4-chloro-2-fluoro-3-methoxyphenyl) pyridine-2-carboxylic acid or a derivative thereof and glyphosate or glufosinate
Provided herein are synergistic herbicidal compositions containing and method for controlling undesirable vegetation utilizing (a) a compound of formula (I): or an agriculturally acceptable salt or ester thereof and (b) glufosinate-ammonium, glyphosate dimethylammonium, glyphosate isopropylammonium, glyphosate trimesium, glufosinate or glyphosate, or an agriculturally acceptable derivative thereof. The methods and compositions herein provide control of undesirable vegetation, e.g., in direct-seeded, water-seeded and transplanted rice, cereals, wheat, barley, oats, rye, sorghum, corn or maize, sugarcane, sunflower, oilseed rape, canola, sugar beet, soybean, cotton, pineapple, vegetables, pastures, grasslands, rangelands, fallowland, turf, tree and vine orchards, plantation crops, aquatics, industrial vegetation management (IVM) or rights of way (ROW). |
| US08895468B2 |
Chromia alumina catalysts for alkane dehydrogenation
Provided are methods of making dehydrogenation catalyst supports containing bayerite and silica. Silica-stabilized alumina powder, prepared by spray drying of bayerite powder, precipitating silica in a bayerite slurry with an acid, or impregnation or co-extrusion of bayerite with sodium silicate solution was found to be a superior catalyst support precursor. Catalysts prepared with these silica containing support materials have higher hydrothermal stability than current CATOFIN® catalysts. Also provided is a dehydrogenation catalyst comprising Cr2O3, an alkali metal oxide, SiO2 and Al2O3, and methods of using said catalyst to make an olefin and/or dehydrogenate a dehydrogenatable hydrocarbon. |
| US08895467B2 |
Ag/MnyOx/C catalyst, preparation and application thereof
An Ag/MnyOx/C catalyst is disclosed, wherein MnyOx is one of Mn3O4 and MnO, or the mixture of Mn3O4 and MnO, or the mixture of Mn3O4 and MnO2 with the mass content of MnO2 in the mixture of Mn3O4 and MnO2 being 0.01-99.9%. The catalyst is obtained by pyrolyzing AgMnO4 at a high temperature. The preparation method comprises two steps: (1) preparing AgMnO4 crystal as the precursor; (2) preparing the Ag/MnyOx/C catalyst. The catalyst has advantages such as high oxygen reduction reaction (ORR) catalytic activity in an alkaline environment, good stability, abundant availability and low cost of raw materials, safety, non-toxicity and pollution-free, environmental friendliness, and adaptive capacity for massive production. The catalyst can be used as oxygen reduction catalyst in metal air fuel cell, alkali anion exchange membrane fuel cell and other alkaline environments. |
| US08895465B2 |
Activator compositions, their preparation, and their use in catalysis
This invention provides activator precursor compositions and activator compositions. The activator precursor compositions are formed from a support material, an organoaluminum compound, and polyfunctional compounds having at least two aromatic groups in which at least two of said aromatic groups each has at least one polar moiety thereon. The activator compositions are formed from a support material, an organoaluminum compound, an aluminoxane, and a polyfunctional compound having at least two aromatic groups in which at least two of said aromatic groups each has at least one polar moiety thereon. Also provided are catalyst compositions, processes for forming catalyst compositions, and polymerization processes utilizing the catalyst compositions of this invention. |
| US08895463B2 |
Glass substrate for Cu-In-Ga-Se solar cell and solar cell using same
A glass substrate for a CIGS solar cell, having high cell efficiency and high glass transition temperature is provided. The glass substrate for a vapor-deposited CIGS film solar cell has a glass transition temperature of at least 580° C. and an average thermal expansion coefficient of from 70×10−7 to 100×10−7/° C., wherein the ratio of the average total amount of Ca, Sr and Ba within from 10 to 40 nm in depth from the surface of the glass substrate to the total amount of Ca, Sr and Ba at 5,000 nm in depth from the surface of the glass substrate is at most 0.35, and the ratio of the average Na amount within from 10 to 40 nm in depth from the surface of the glass substrate after heat treatment to such average Na amount before the heat treatment is at least 1.5. |
| US08895462B2 |
Alkali-free glass and preparation thereof
The present invention provides the composition of an alkali-free glass composition containing no alkali metal oxide and the preparation thereof. The alkali-free glass comprising substantially no alkali metal oxide according to the present invention comprises 46 to 57 wt % of SiO2; 3.5 to 7.5 wt % of B2O3; 21 to 29 wt % of Al2O3; 3 to 14 wt % of MgO; 11 to 16 wt % of CaO; and 1 to 5 wt % of SrO, based on the total weight of oxides present therein. |
| US08895459B2 |
Bicomponent fiber
The present invention relates to a new bicomponent fiber, a nonwoven fabric comprising said new bicomponent fiber and sanitary articles made therefrom. The bicomponent fiber contains a polyethylene-based resin forming at least part of the surface of the fiber longitudinally continuously and is characterized by a Co-monomer Distribution Constant greater than about 45, a recrystallization temperature between 85° C. and 110° C., a tan delta value at 0.1 rad/sec from about 15 to 50, and a complex viscosity at 0.1 rad/second of 1400 Pa·sec or less. The nonwoven fabric comprising the new bicomponent fiber according to the instant invention are not only excellent in softness, but also high in strength, and can be produced in commercial volumes at lower costs due to higher thoughputs and requiring less energy. |
| US08895458B2 |
Abrasive cloth and method for producing nanofiber structure
An abrasive cloth which comprises an article in a sheet form having, in at least a part thereof, nanofibers comprising a thermoplastic polymer and having a number average single fiber fineness of 1×10−8 to 2×10−4 dtex wherein the sum of single fiber fineness percentages (which is defined in the specification) of a single fiber fineness of 1×10−8 to 2×10−4 dtex is the range of 60% or more, and exhibits a stress at 10% elongation in a longitudinal direction of 5 to 200 N/cm-width; and a method for preparing a nanofiber structure, which comprises providing a nanofiber dispersion having a dispersant and, dispersed therein, nanofibers comprising a thermoplastic polymer and having a number average diameter of 1 to 500 nm, attaching the dispersion to a support, and then removing said dispersant. The above abrasive cloth is excellent in texturing characteristics, and the above method allows the preparation of a nanofiber structure wherein nanofibers form a composite with the support. |
| US08895451B2 |
Method for etching micro-electrical films using a laser beam
A method for etching with a laser beam having a predetermined wavelength an area of a layer of a first material, said area being deposited at the surface of at least two second materials, includes: depositing a layer of a third material on the layer of the first material, the first and the third materials having a chemical affinity on application of the laser beam greater than the chemical affinity during said application between the first material and each of said at least two second materials; and applying the laser beam to an area of a free surface of the layer of third material vertically above the area of the layer of first material with a fluence of said laser beam causing the separation of said area. |
| US08895448B2 |
Single crystal silicon membrane with a suspension layer, method for fabricating the same, and a micro-heater
To form a single crystal silicon membrane with a suspension layer, a single crystal silicon substrate with crystal orientation <111> is prepared. A doped layer is formed on the top surface of the single crystal silicon substrate. Multiple main etching windows are formed through the doped layer. A cavity is formed through the single crystal silicon substrate by anisotropic etching. The doped layer is above the cavity to form a suspension layer. If two electrode layers are formed on the two ends of the suspension layer, a micro-heater is constructed. The main etching windows extend in parallel to a crystal plane {111}. By both the single crystal structure and different impurity concentrations of the single crystal silicon substrate, the single crystal silicon substrate has a higher etch selectivity. When a large-area cavity is formed, the thickness of the suspension layer is still controllable. |
| US08895443B2 |
N-metal film deposition with initiation layer
Provided are methods of depositing N-Metals onto a substrate. Some methods comprise providing an initiation layer of TaM or TiM layer on a substrate, wherein M is selected from aluminum, carbon, noble metals, gallium, silicon, germanium and combinations thereof; and exposing the substrate having the TaM or TiM layer to a treatment process comprising soaking the surface of the substrate with a reducing agent to provided a treated initiation layer. |
| US08895437B2 |
Method for forming staircase word lines in a 3D non-volatile memory having vertical bit lines
A 3D nonvolatile memory has memory elements arranged in a three-dimensional pattern defined by rectangular coordinates having x, y and z-directions and with a plurality of parallel planes stacked in the z-direction over a semiconductor substrate. It has vertical local bit lines and a plurality of staircase word lines. Each staircase word line has a series of alternating segments and risers elongated respectively in the x-direction and z-direction traversing across the plurality of planes in the z-direction with a segment in each plane. Methods of forming a slab of multi-plane memory with staircase word lines include processes with one masking and with two maskings for forming each plane. |
| US08895428B2 |
Manufacture method of thin film transistor array substrate
Disclosed is a manufacture method of the thin film transistor array, comprising depositing a first transparent conductive layer and a first metal layer to perform patterning for forming a common electrode, a gate electrode and a transparent electrode array; depositing an insulating layer, an active layer, an ohmic contact layer and a second metal layer to perform patterning for forming a source and a drain; depositing a second transparent conductive layer to perform patterning for forming a source contact layer, a drain contact layer and a pixel electrode array connected to the drain contact layer. The present invention simplifies the manufacture process, saves the cost and time for the manufacture. |
| US08895425B2 |
Method of forming channel layer of electric device and method of manufacturing electric device using the same
A method of forming a channel layer of an electric device according to an embodiment is provided. First, a conductive substrate including an insulating layer on the substrate is provided. The conductive substrate and a metal to be plated are used as respective electrodes to carry out electroplating within an electrolyte solution. In this case, electrons provided by a tunneling current passing through the insulating layer from the conductive substrate are bonded with ions of the metal within the electrolyte solution to form a metal channel layer on the insulating layer. |
| US08895424B2 |
Process for forming schottky rectifier with PtNi silicide schottky barrier
A process for forming a Schottky barrier to silicon to a barrier height selected at a value between 640 meV and 840 meV employs the deposition of a platinum or nickel film atop the silicon surface followed by the deposition of the other of a platinum or nickel film atop the first film. The two films are then exposed to anneal steps at suitable temperatures to cause their interdiffusion and an ultimate formation of Ni2Si and Pt2Si contacts to the silicon surface. The final silicide has a barrier height between that of the Pt and Ni, and will depend on the initial thicknesses of the Pt and Ni films and annealing temperature and time. Oxygen is injected into the system to form an SiO2 passivation layer to improve the self aligned process. |
| US08895422B2 |
Production of an integrated circuit including electrical contact on SiC
Production of an integrated circuit including an electrical contact on SiC is disclosed. One embodiment provides for production of an electrical contact on an SiC substrate, in which a conductive contact is produced on a boundary surface of the SiC substrate by irradiation and absorption of a laser pulse on an SiC substrate. |
| US08895421B2 |
III-N device structures and methods
A III-N device is described with a III-N layer, an electrode thereon, a passivation layer adjacent the III-N layer and electrode, a thick insulating layer adjacent the passivation layer and electrode, a high thermal conductivity carrier capable of transferring substantial heat away from the III-N device, and a bonding layer between the thick insulating layer and the carrier. The bonding layer attaches the thick insulating layer to the carrier. The thick insulating layer can have a precisely controlled thickness and be thermally conductive. |
| US08895420B2 |
Method of fabricating a device with a concentration gradient and the corresponding device
A semiconductive device is fabricated by forming, within a semiconductive substrate, at least one continuous region formed of a material having a non-uniform composition in a direction substantially perpendicular to the thickness of the substrate. |
| US08895419B2 |
Nitride semiconductor light-emitting element and method for fabricating the same
This nitride-based semiconductor light-emitting element includes: a nitride-based semiconductor multilayer structure including a p-type semiconductor region, the nitride-based semiconductor multilayer structure having a growing plane which is an m-plane; and an electrode which is arranged on an AldGaeN layer. The AldGaeN layer is formed of a GaN-based semiconductor. The electrode includes Ag as the principal component and also includes Ge and at least one of Mg and Zn. |
| US08895417B2 |
Reducing contact resistance for field-effect transistor devices
A method and an apparatus for doping at least one of a graphene and a nanotube thin-film transistor field-effect transistor device to decrease contact resistance with a metal electrode. The method includes selectively applying a dopant to a metal contact region of at least one of a graphene and a nanotube field-effect transistor device to decrease the contact resistance of the field-effect transistor device. |
| US08895411B2 |
Method for creating semiconductor junctions with reduced contact resistance
Embodiments of the invention relate generally to creating semiconductor junctions with reduced contact resistance. In one embodiment, the invention provides a method of forming a composition of material, the method comprising: providing at least two populations of semiconducting materials; layering the at least two populations of semiconducting materials to form at least two layers; and consolidating the at least two populations of semiconducting materials, wherein the consolidating creates an electrical connection between the at least two layers. |
| US08895409B2 |
Semiconductor wafer plating bus and method for forming
A semiconductor wafer includes a die, an edge seal, a bond pad, a plating bus, and trace. The die is adjacent to a saw street. The edge seal is along a perimeter of the die and includes a conductive layer formed in a last interconnect layer of the die. The bond pad is formed as part of metal deposition layer above the last interconnect layer or part of the last interconnect layer. The plating bus is within the saw street. The trace is connected to the bond pad and to the plating bus (1) over the edge seal, insulated from the edge seal, and formed in the metal deposition layer or (2) through the edge seal and insulated from the edge seal. |
| US08895408B2 |
Semiconductor device
A method of layout of pattern includes the following processes. A graphic data of a first wiring in a first area of a semiconductor wafer is extracted. The first area is a semiconductor chip forming area. The first area is surrounded by a scribed area of the semiconductor wafer. The first area includes a second area. The second area is bounded with the scribed area. The second area has a second distance from a boundary between the semiconductor chip forming area and the scribed area to an boundary between the first area and the second area. A first dummy pattern in the first area is laid out. The first dummy pattern has at least a first distance from the first wiring. A second dummy pattern in the second area is laid out. The second dummy pattern has at least the first distance from the first wiring. The second dummy pattern has at least a third distance from the first dummy pattern. |
| US08895407B2 |
Manufacturing method of SOI substrate and manufacturing method of semiconductor device
A manufacturing method of an SOI substrate which possesses a base substrate having low heat resistance and a very thin semiconductor layer having high planarity is demonstrated. The method includes: implanting hydrogen ions into a semiconductor substrate to form an ion implantation layer; bonding the semiconductor substrate and a base substrate such as a glass substrate, placing a bonding layer therebetween; heating the substrates bonded to each other to separate the semiconductor substrate from the base substrate, leaving a thin semiconductor layer over the base substrate; irradiating the surface of the thin semiconductor layer with laser light to improve the planarity and recover the crystallinity of the thin semiconductor layer; and thinning the thin semiconductor layer. This method allows the formation of an SOI substrate which has a single-crystalline semiconductor layer with a thickness of 100 nm or less over a base substrate. |
| US08895406B2 |
Release strategies for making transferable semiconductor structures, devices and device components
Provided are methods for making a device or device component by providing a multilayer structure having a plurality of functional layers and a plurality of release layers and releasing the functional layers from the multilayer structure by separating one or more of the release layers to generate a plurality of transferable structures. The transferable structures are printed onto a device substrate or device component supported by a device substrate. The methods and systems provide means for making high-quality and low-cost photovoltaic devices, transferable semiconductor structures, (opto-)electronic devices and device components. |
| US08895404B2 |
Method of back-side patterning
A method of back-side patterning of a silicon wafer is disclosed, which includes: depositing a protective layer on a front side of a silicon wafer; forming one or more deep trenches through the protective layer and extending into the silicon wafer by a depth greater than a target thickness of the silicon wafer; flipping over the silicon wafer and bonding the front side of the silicon wafer with a carrier wafer; polishing a back side of the silicon wafer; performing alignment by using the one or more deep trench alignment marks and performing back-side patterning process on the back side of the silicon wafer; and de-bonding the silicon wafer with the carrier wafer. |
| US08895403B2 |
Transistor, method for fabricating the transistor, and semiconductor device comprising the transistor
A transistor, a method for fabricating a transistor, and a semiconductor device comprising the transistor are disclosed in the present invention. The method for fabricating a transistor may comprise: providing a substrate and forming a first insulating layer on the substrate; defining a first device area on the first insulating layer; forming a spacer surrounding the first device area on the first insulating layer; defining a second device area on the first insulating layer, wherein the second device area is isolated from the first device area by the spacer; and forming transistor structures in the first and second device area, respectively. The method for fabricating a transistor of the present invention greatly reduces the space required for isolation, significantly decreases the process complexity, and greatly reduces fabricating cost. |
| US08895402B2 |
Fin-type memory
Memory devices and methods for forming a device are disclosed. A substrate prepared with a lower electrode level with bottom electrodes is provided. Fin stack layers are formed on the lower electrode level. Spacers are formed on top of the fin stack layers. The spacers have a width which is less than a lithographic resolution. The fin stack layers are patterned using the spacers as a mask to form fin stacks. The fin stacks contact the bottom electrodes. An interlevel dielectric (ILD) layer is formed on the substrate. The ILD layer fills spaces around the fin stacks. An upper electrode level is formed on the ILD layer. The upper electrode level has top electrodes in contact with the fin stacks. The electrodes and fin stacks form fin-type memory cells. |
| US08895400B2 |
Methods of fabricating semiconductor devices having buried word line interconnects
A semiconductor device includes a semiconductor substrate having a cell region and a peripheral circuit region defined therein. A buried word line is disposed in the substrate in the cell region and has a top surface lower than top surfaces of cell active regions in the cell region. A gate line is disposed on the substrate in the peripheral circuit region. A word line interconnect is disposed in the substrate in the peripheral circuit region, the word line interconnect including a first portion contacting the buried word line and having a top surface lower than a top surfaces of the cell active regions and a second portion that is overlapped by and in contact with the gate line. |
| US08895399B2 |
Integrated circuit and method of forming sealed trench junction termination
An integrated circuit having a substrate with a first conductivity type of semiconductor material. A buried layer is formed in the substrate. The buried layer has a second conductivity type of semiconductor material. A first semiconductor layer is formed over the buried layer. The first semiconductor layer has the second conductivity type of semiconductor material. A trench is formed through the first semiconductor layer and buried layer and extends into the substrate. The trench is lined with an insulating layer and filled with an insulating material. A second semiconductor layer is formed in the first semiconductor layer. The second semiconductor layer has the first conductivity type of semiconductor material. A third semiconductor layer is formed in the second semiconductor layer. The third semiconductor layer has the second conductivity type of semiconductor material. The first, second, and third semiconductor layers form the collector, base, and emitter of a bipolar transistor. |
| US08895392B2 |
Method for fabricating semiconductor device
A method for fabricating a semiconductor device including a semiconductor substrate having a trench formed therein. A migration assist layer is formed in the trench and on the substrate. A buried layer in formed in the trench by migrating material from the migration assist layer and the semiconductor substrate. |
| US08895391B2 |
Method of manufacturing semiconductor memory device
The present disclosure relates to a method of manufacturing a semiconductor memory device, the method including: forming isolation layers in trenches dividing active regions of a substrate; depositing a tunnel insulating layer and a charge storing layer on an entire structure including the isolation layers; forming mask patterns on the charge storing layer to cover the active regions and to expose the isolation layers; and etching the charge storing layer by using the mask patterns as an etch barrier, thereby forming charge storing layer patterns on the active regions. |
| US08895389B2 |
Semiconductor structures and fabrication method thereof
A method is provided for fabricating a semiconductor structure. The method includes providing a semiconductor substrate having a plurality of first doped regions and second doped regions; and forming a first dielectric layer on the semiconductor substrate. The method also includes forming a first gate dielectric layer and a second gate dielectric layer; and forming a first metal gate and a second metal gate on the first gate dielectric layer and the second gate dielectric layer, respectively. Further, the method includes forming a third dielectric layer on the second metal gate; and forming a second dielectric layer on the first dielectric layer. Further, the method also includes forming at least one opening exposing at least one first metal gate and one first doped region; and forming a contact layer contacting with the first metal gate and the first doped region to be used as a share contact structure. |
| US08895386B2 |
Method of forming semiconductor structure
A method of forming a semiconductor structure is provided. A substrate having a cell area and a periphery area is provided. An oxide material layer and a first conductive material layer are sequentially formed on the substrate in the cell and periphery areas. A patterning step is performed to form first and second stacked structures on the substrate respectively in the cell and periphery areas. First and second spacers are formed respectively on sidewalls of the first and second stacked structures. At least two first doped regions are formed in the substrate beside the first stacked structure, and two second doped regions are formed in the substrate beside the second stacked structure. A dielectric layer and a second conductive layer are formed at least on the first stacked structure. The first stacked structure, the dielectric layer, and the second conductive layer in the cell area constitute a charge storage structure. |
| US08895385B2 |
Methods of forming semiconductor structures
A method of forming a semiconductor structure includes forming a through-substrate-via (TSV) structure in a substrate. The method includes forming a first etch stop layer over the TSV structure. The method further includes forming a first dielectric layer in contact with the first etch stop layer. The method still further includes forming a second etch stop layer in contact with the first dielectric layer. The method also includes forming a metal-insulator-metal (MIM) capacitor structure in contact with the second etch stop layer. The method further includes forming a first conductive structure through the first etch stop layer and the first dielectric layer, wherein the first conductive structure is electrically coupled with the TSV structure and the TSV structure is substantially wider than the first conductive structure. |
| US08895381B1 |
Method of co-integration of strained-Si and relaxed Si or strained SiGe FETs on insulator with planar and non-planar architectures
A method of forming a semiconductor device that includes providing a substrate including a biaxial strained semiconductor layer that is present directly on a dielectric layer, and patterning the biaxial strained semiconductor layer to provide a first conductivity region of a laterally relaxed semiconductor portion and a second conductivity region of a biaxial strained semiconductor portion, wherein the laterally relaxed semiconductor portion is present over an undercut region in the dielectric layer.A hydrogen anneal is applied to the first and second conductivity region, wherein the laterally relaxed semiconductor portion is relaxed to an unstrained state. A first semiconductor device is formed in first conductivity region and a second semiconductor device is formed in the second conductivity region. |
| US08895376B2 |
Thin film transistor, method for manufacturing same, display device, and method for manufacturing same
A thin film transistor includes: an insulating layer; a gate electrode provided on the insulating layer; a gate insulating film provided on the gate electrode; a semiconductor layer provided on the gate insulating film, the semiconductor layer being formed of oxide; source and drain electrodes provided on the semiconductor layer; and a channel protecting layer provided between the source and drain electrodes and the semiconductor layer. The source electrode is opposed to one end of the gate electrode. The drain electrode is opposed to another end of the gate electrode. The another end is opposite to the one end. The drain electrode is apart from the source electrode. The channel protecting layer covers at least a part of a side face of a part of the semiconductor layer. The part of the semiconductor layer is not covered with the source and drain electrodes above the gate electrode. |
| US08895374B2 |
Semiconductor field-effect transistor structure and method for manufacturing the same
The present application discloses a semiconductor Field-Effect Transistor (FET) structure and a method for manufacturing the same, wherein the method comprises: forming a semiconductor substrate comprising an SOI structure having a body-contact hole; forming a fin on the SOI structure of the semiconductor substrate; forming a gate stack structure on top and side faces of the fin; forming source/drain structures in the fin on both sides of the gate stack structure; and performing metallization. The present invention makes use of traditional quasi-planar based top-down processes, thus the manufacturing process thereof becomes simple to implement; the present invention exhibits good compatibility with CMOS planar process and can be easily integrated; the present invention also is favorable for suppressing short channel effects desirably, and boosts MOSFETs to develop towards a trend of downscaling size. |
| US08895370B2 |
Vertical conduction power electronic device and corresponding realization method
A vertical conduction power device includes respective gate, source and drain areas formed in an epitaxial layer on a semiconductor substrate. The respective gate, source and drain metallizations are formed by a first metallization level. The gate, source and drain terminals are formed by a second metallization level. The device is configured as a set of modular areas extending parallel to each other. Each modular area has a rectangular elongate source area perimetrically surrounded by a gate area, and a drain area defined by first and second regions. The first regions of the drain extend parallel to one another and separate adjacent modular areas. The second regions of the drain area extend parallel to one another and contact ends of the first regions of the drain area. |
| US08895365B2 |
Techniques and configurations for surface treatment of an integrated circuit substrate
Embodiments of the present disclosure are directed towards techniques and configurations for surface treatment of an integrated circuit (IC) substrate. In one embodiment, an apparatus includes an integrated circuit substrate, an interconnect structure disposed on the integrated circuit substrate, the interconnect structure being configured to route electrical signals to or from the integrated circuit substrate and comprising a metal surface, and a protective layer disposed on the metal surface of the interconnect structure, the protective layer comprising a first functional group bonded with the metal surface and a second functional group bonded with the first functional group, wherein the second functional group is hydrophobic to inhibit contamination of the metal surface by hydrophilic materials and further inhibits oxidation of the metal surface. Other embodiments may be described and/or claimed. |
| US08895363B2 |
Die preparation for wafer-level chip scale package (WLCSP)
Consistent with an example embodiment, there is a method for assembling a wafer level chip scale processed (WLCSP) device from a wafer substrate, the method comprises grinding the back-side of the wafer substrate to a prescribed thickness. A plurality of trenches is sawed along a plurality of device die boundaries on a back-side surface of the wafer, the trenches having a bevel profile. The plurality of trenches is etched until the bevel profile of the plurality of trenches is rounded. |
| US08895360B2 |
Integrated semiconductor device and wafer level method of fabricating the same
The present disclosure provides one embodiment of a stacked semiconductor device. The stacked semiconductor device includes a first substrate; a first bond pad over the first substrate; a second substrate including a second electrical device fabricated thereon; a second bond pad over the second electrical device over the second substrate, the second bond pad electrically connecting to the second electrical device; a second insulation layer over the second bond pad having a top surface, the second insulation layer being bonded toward the first bond pad of the first substrate; and a through-substrate-via (“TSV”) extending from a surface opposite to the first bond pad through the first substrate and through the top surface of the second insulation layer to the second bond pad. |
| US08895359B2 |
Semiconductor device, flip-chip mounting method and flip-chip mounting apparatus
A semiconductor chip (1) is flip-chip mounted on a circuit board (4) with an underfill resin (6) interposed between the semiconductor chip (1) and the circuit board (4) and a container covering the semiconductor chip (1) is bonded on the circuit board (4). At this point, the semiconductor chip (1) positioned with the underfill resin (6) interposed between the circuit board (4) and the semiconductor chip (1) is pressed and heated by a pressure-bonding tool (8); meanwhile, the surface of the underfill resin (6) protruding around the semiconductor chip (1) is pressed by the pressure-bonding tool (8) through a film (13) on which a surface unevenness is formed in a periodically repeating pattern, so that a surface unevenness (16a) is formed. The inner surface of the container covering the semiconductor chip (1) is bonded to the surface unevenness (16a) on the surface of the underfill resin. |
| US08895358B2 |
Semiconductor device and method of forming cavity in PCB containing encapsulant or dummy die having CTE similar to CTE of large array WLCSP
A semiconductor device has a PCB with a cavity formed in a first surface of the PCB. A stress compensating structure, such as an encapsulant or dummy die, is disposed in the cavity. An insulating layer is formed over the PCB and stress compensating structure. A portion of the insulating layer is removed to expose the stress compensating structure. A conductive layer is formed over the stress compensating structure. A solder masking layer is formed over the conductive layer with openings to the conductive layer. A semiconductor package is mounted over the cavity. The semiconductor package is a large array WLCSP. Bumps electrically connect the semiconductor package and conductive layer. The semiconductor package is electrically connected to the conductive layer. The CTE of the stress compensating structure is selected substantially similar to or matching the CTE of the semiconductor package to reduce stress between the semiconductor package and PCB. |
| US08895357B2 |
Integrated circuit and method of manufacturing the same
Presented is an integrated circuit packaged at the wafer level wafer (also referred to as a wafer level chip scale package, WLCSP), and a method of manufacturing the same. The WLCSP comprises a die having an electrically conductive redistribution layer, RDL, formed above the upper surface of the die, the RDL defining a signal routing circuit. The method comprises the steps of: depositing the electrically conductive RDL so as to form an electrically conductive ring surrounding the signal routing circuit; and coating the side and lower surfaces of the die with an electrically conductive shielding material. |
| US08895356B2 |
Chemical vapor deposition apparatus and method of forming semiconductor epitaxial thin film using the same
A chemical vapor deposition apparatus includes: a reaction chamber including an inner tube having a predetermined volume of an inner space, and an outer tube tightly sealing the inner tube; a wafer holder disposed within the inner tube and on which a plurality of wafers are stacked at predetermined intervals; and a gas supply unit including at least one gas line supplying an external reaction gas to the reaction chamber, and a plurality of spray nozzles communicating with the gas line to spray the reaction gas to the wafers, whereby semiconductor epitaxial thin films are grown on the surfaces of the wafers, wherein the semiconductor epitaxial thin film grown on the surface of the wafer includes a light emitting structure in which a first-conductivity-type semiconductor layer, an active layer, and a second-conductivity-type semiconductor layer are sequentially formed. |
| US08895352B2 |
Method to improve nucleation of materials on graphene and carbon nanotubes
Techniques for forming a thin coating of a material on a carbon-based material are provided. In one aspect, a method for forming a thin coating on a surface of a carbon-based material is provided. The method includes the following steps. An ultra thin silicon nucleation layer is deposited to a thickness of from about two angstroms to about 10 angstroms on at least a portion of the surface of the carbon-based material to facilitate nucleation of the coating on the surface of the carbon-based material. The thin coating is deposited to a thickness of from about two angstroms to about 100 angstroms over the ultra thin silicon layer to form the thin coating on the surface of the carbon-based material. |
| US08895341B2 |
Method of manufacturing radiation detector
A method of manufacturing a radiation detector, comprising: a charge blocking layer generating step of generating a charge blocking layer on a substrate; a CdTe-layer generating step of generating a CdTe layer so as to cover the charge blocking layer on the substrate, the CdTe layer undergoing heterojunction to the charge blocking layer and being composed of a chlorine-doped polycrystalline film; and a heat treatment step of performing a heat treatment on the substrate having the CdTe layer formed thereon. |
| US08895338B2 |
Method of fabricating MEMS, NEMS, photonic, micro- and nano-fabricated devices and systems
An improved method for the fabrication of Micro-Electro-Mechanical Systems (MEMS), Nano-Electro-Mechanical Systems (NEMS), Photonics, Nanotechnology, 3-Dimensional Integration, Micro- and Nano-Fabricated Devices and Systems for both rapid prototyping development and manufacturing is disclosed. The method includes providing a plurality of different standardized and repeatable process modules usable in fabricating the devices and systems, defining a process sequence for fabricating a predefined one of the devices or systems, and identifying a series of the process modules that are usable in performing the defined process sequence and thus in fabricating the predefined device or system. |
| US08895335B1 |
Impurity-induced disorder in III-nitride materials and devices
A method for impurity-induced disordering in III-nitride materials comprises growing a III-nitride heterostructure at a growth temperature and doping the heterostructure layers with a dopant during or after the growth of the heterostructure and post-growth annealing of the heterostructure. The post-growth annealing temperature can be sufficiently high to induce disorder of the heterostructure layer interfaces. |
| US08895334B2 |
Thin film transistor array substrate and method for manufacturing the same and electronic device
Embodiments of the present invention disclose a thin film transistor array substrate and a method for manufacturing the same and an electronic device. The method for manufacturing the thin film transistor array substrate comprises: a first patterning process, in which a pattern of an active layer which is formed by a semiconductor layer and patterns of a source electrode and a drain electrode, which are separated from each other and are formed by a first metal layer, are formed on a transparent substrate; a second patterning process, in which a pattern of an insulating layer is formed on the transparent substrate subjected to the first patterning process, the pattern of the insulating layer comprising a contact via hole exposing the source electrode; and a third patterning process, in which a pattern of a pixel electrode, which is formed by a transparent conductive layer, and a pattern of a gate electrode, which is formed by a second metal layer, are formed on the transparent substrate subjected to the second patterning process, the pixel electrode being connected to the source electrode through the contact via hole. |
| US08895331B2 |
Semiconductor light emitting diode having high efficiency and method of manufacturing the same
Provided is a semiconductor light emitting diode having a textured structure formed on a substrate. In a method of manufacturing the semiconductor light emitting diode, a metal layer is formed on the substrate, and a metal oxide layer having holes is formed by anodizing the metal layer. The metal oxide layer itself can be used as a textured structure pattern, or the textured structure pattern can be formed by forming holes in the substrate or a material layer under the metal oxide layer corresponding to the holes of the metal oxide layer. The manufacture of the semiconductor light emitting diode is completed by sequentially forming a first semiconductor layer, an active layer, and a second semiconductor layer on the textured structure pattern. |
| US08895329B2 |
Patterned substrate for light emitting diode and light emitting diode employing the same
Disclosed herein are a patterned substrate for a light emitting diode and a light emitting diode employing the patterned substrate. The substrate has top and bottom surfaces. Protrusion patterns are arranged on the top surface of the substrate. Furthermore, recessed regions surround the protrusion patterns. The recessed regions have irregular bottoms. Thus, the protrusion patterns and the recessed regions can prevent light emitted from a light emitting diode from being lost due to the total reflection to thereby improve light extraction efficiency. |
| US08895328B2 |
Fabrication method of light-emitting device
A fabrication method of a light-emitting device comprises providing a growth substrate; forming a protective layer on a first surface of the growth substrate; and forming a first semiconductor layer on a second surface of the growth substrate opposite to the first surface, wherein the coefficient of thermal expansion of the growth substrate is smaller than that of the protective layer and the first semiconductor layer. |
| US08895325B2 |
System and method for aligning substrates for multiple implants
A system and method are disclosed for aligning substrates during successive process steps, such as ion implantation steps, is disclosed. Implanted regions are created on a substrate. After implantation, an image is obtained of the implanted regions, and a fiducial is provided on the substrate in known relation to at least one of the implanted regions. A thermal anneal process is performed on the substrate such that the implanted regions are no longer visible but the fiducial remains visible. The position of the fiducial may be used in downstream process steps to properly align pattern masks over the implanted regions. The fiducial also may be applied to the substrate before any ion implanting of the substrate is performed. The position of the fiducial with respect to an edge or a corner of the substrate may be used for aligning during downstream process steps. Other embodiments are described and claimed. |
| US08895324B2 |
Method of determining an amount of impurities that a contaminating material contributes to high purity silicon
A method of determining an amount of impurities that a contaminating material contributes to high purity silicon including the step of partially encasing a sample of high purity silicon in the contaminating material. The sample encased in the contaminating material is heated within a furnace. A change in impurity content of the high purity silicon is determined after the step of heating, compared to an impurity content of the high purity silicon prior to the step of heating. A furnace for heat treating high purity silicon including a housing that defines a heating chamber. The housing is at least partially formed from low contaminant material that contributes less than 400 parts per trillion of impurities to the high purity silicon during heating at annealing temperatures for a sufficient period time to anneal the high purity silicon, and the furnace contributes an average of less than 400 parts per trillion of impurities to the high purity silicon under the same heating conditions. |
| US08895321B2 |
Integrated affinity microcolumns and affinity capillary electrophoresis
Device and method for detecting the presence of known or unknown toxic agents in a fluid sample. Targets in the sample are bound to releasable receptors immobilized in a reaction region of a micro- or nano-fluidic device. The receptors are selected based on their affinity for classes of known toxic agents. The receptors are freed and the bound and unbound receptors separated based on differential electrokinetic mobilities while they travel to a detection device. |
| US08895319B2 |
Nanohybrid nitrogen monoxide detecting sensor and a production method therefor
The present invention provides a nanohybrid type nitrogen monoxide detecting sensor and a production method therefor in which the nanohybrid type nitrogen monoxide detecting sensor includes a fluorescent semiconducting quantum dot and a transition metal compound. Employing a nanohybrid structure including semiconducting quantum dot nano-particles combined with a molecule recognizer selectively forming a bonding to nitrogen monoxide, the nitrogen monoxide detecting sensor is enabled to detect an infinitesimal amount of nitrogen monoxide by bringing about photoluminescence upon detection of nitrogen monoxide. |
| US08895315B2 |
Displaying status of a blood glucose measure being transferred wirelessly from a handheld glucose meter
Persons with diabetes often carry a handheld glucose meter as well as a portable computing device, such as a mobile phone. Given the close proximity of these two devices, the portable computing device can serve as a data collector for the glucose measures taken by the glucose meter. Improved techniques are set forth for transferring glucose measures automatically and seamlessly to the patient's portable computing device, including displaying a value for the glucose measure along with an identifier for the portable computing device on a display of the glucose meter during the data exchange with the portable computing device. |
| US08895312B2 |
Nanofluidic platform for single mitochondria analysis
A microfluidic device for mitochondria analysis includes an inlet coupled to a first access channel, an outlet coupled to a second access channel, and a plurality of trapping channels fluidically coupled at one end to the first access channel and fluidically coupled at an opposing end to the second access channel, each trapping channel has a cross-sectional dimension about 2 μm in one direction and a cross-sectional dimension between about 0.45 and about 0.75 μm in a second direction. |
| US08895311B1 |
Methods and systems for control of general purpose microfluidic devices
The present invention provides control methods, control systems, and control software for microfluidic devices that operate by moving discrete micro-droplets through a sequence of determined configurations. Such microfluidic devices are preferably constructed in a hierarchical and modular fashion which is reflected in the preferred structure of the provided methods and systems. In particular, the methods are structured into low-level device component control functions, middle-level actuator control functions, and high-level micro-droplet control functions. Advantageously, a microfluidic device may thereby be instructed to perform an intended reaction or analysis by invoking micro-droplet control function that perform intuitive tasks like measuring, mixing, heating, and so forth. The systems are preferably programmable and capable of accommodating microfluidic devices controlled by low voltages and constructed in standardized configurations. Advantageously, a single control system can thereby control numerous different reactions in numerous different microfluidic devices simply by loading different easily understood micro-droplet programs. |
| US08895307B2 |
Ketol-acid reductoisomerase using NADH
Methods for the evolution of NADPH binding ketol-acid reductoisomerase enzymes to acquire NADH binding functionality are provided. Specific mutant ketol-acid reductoisomerase enzymes isolated from Pseudomonas that have undergone co-factor switching to bind NADH are described. |
| US08895306B2 |
Oxadiazoline ligands for modulating the expression of exogenous genes via an ecdysone receptor complex
The present invention relates to methods to use non-steroidal ligands in nuclear receptor-based inducible gene expression system to modulate exogenous gene expression in which an ecdysone receptor complex comprising: a DNA binding domain; a ligand binding domain; a transactivation domain; and a ligand is contacted with a DNA construct comprising: the exogenous gene and a response element; wherein the exogenous gene is under the control of the response element and binding of the DNA binding domain to the response element in the presence of the ligand results in activation or suppression of the gene. |
| US08895299B2 |
Method for expansion of stem cells
A method of increasing the growth of stem cells by mixing the stem cells with a growth medium that has been conditioned by an incubation with placental tissue. The method increases the expansion of the stem cell population. |
| US08895298B2 |
Microfluidic device for cell separation and uses thereof
The invention features methods for separating cells from a sample (e.g., separating fetal red blood cells from maternal blood). The method begins with the introduction of a sample including cells into one or more microfluidic channels. In one embodiment, the device includes at least two processing steps. For example, a mixture of cells is introduced into a microfluidic channel that selectively allows the passage of a desired type of cell, and the population of cells enriched in the desired type is then introduced into a second microfluidic channel that allows the passage of the desired cell to produce a population of cells further enriched in the desired type. The selection of cells is based on a property of the cells in the mixture, for example, size, shape, deformability, surface characteristics (e.g., cell surface receptors or antigens and membrane permeability), or intracellular properties (e.g., expression of a particular enzyme). |
| US08895297B2 |
Micro-device and methods for disrupting cells
A micro-device for disrupting cells includes a first chamber in which the cells are disrupted, a second chamber which is pressurized and depressurized, a flexible membrane which separates the first chamber and the second chamber and is vibrated by pressuring and depressurizing the second chamber, and a micro-unit confined in the first chamber, where the micro-unit disrupts the cells in the first chamber. |
| US08895296B2 |
Analyzer
An object of the present invention relates to providing a nucleic acid analyzer capable of testing a plurality of test items in parallel, and of obtaining high efficiency of specimen processing even if the test item or a measuring object is changed. The present invention relates to an analyzer including a carousel rotatable about a rotation axis, a plurality of reaction containers held along a circumferential edge of the carousel, and at least one detector having a light source for irradiating the reaction container with excitation light and a detection element for detecting fluorescence from a reaction liquid in the reaction container. The detector is removable. By attaching a desired detector, it is possible to perform fluorescence measurement in response to the test item. According to the present invention, it is possible to test a plurality of test items in parallel, and even if the test item or the measuring object is changed, the high efficiency of specimen processing can be obtained. |
| US08895294B2 |
Methods, devices, kits and compositions for detecting roundworm, whipworm, and hookworm
Methods, devices, kits and compositions for detecting the presence or absence of one or more helminthic coproantigens in a sample are disclosed herein. The methods, devices, kits and compositions of the present invention may be used to confirm the presence or absence of roundworm, whipworm and/or hookworm in a fecal sample from a mammal and may also be able to distinguish between one or more helminth infections. Confirmation of the presence or absence of roundworm, whipworm and/or hookworm in the mammal may be made, for example, for the purpose of selecting an optimal course of treating the mammal and/or for the purpose of determining whether the mammal has been rid of the infection after treatment has been initiated. |
| US08895290B2 |
Method for digesting a biomass comprising lignin together with cellulose and/or hemicellulose
The invention relates to a method for digesting a biomass comprising, lignin, cellulose, and hemicellulose, comprising the steps of: (a) contacting the biomass with a first solvent for dissolving the cellulose and/or the hemicellulose, (b) contacting the dissolved cellulose and/or hemicellulose with a precipitant for forming a precipitate comprising cellulose and/or hemicellulose and residual lignin, wherein the precipitant is selected from the group consisting of alkanes, ethers, and esters; and (c) contacting the precipitate with a second solvent for removing residual lignin from the precipitate. The invention further relates to an apparatus for performing such a method. |
| US08895289B2 |
Method and device for photochemical process
Photochemical process and device adapted to breed, produce, or hydrocultivate microorganisms. The process includes conveying a reaction medium in a reactor in a meander-shaped way that includes moving the reaction medium along a direction that perpendicularly or inclined at an angle to an imaginary horizontal plane, wherein, during the conveying, the reaction medium moves in the reactor at least once along a first direction defined as one of a top down direction and a direction of gravity, moves in the reactor at least once along a second direction defined as one of a bottom up direction and against the direction of gravity, and moves in the reactor one of freely under atmospheric pressure and while exposed to the atmosphere. The process also includes introducing into and removing from the reactor the reaction medium in a continuous manner. |
| US08895286B2 |
Attenuated pestiviruses
This invention relates to attenuated pestiviruses characterized in that their enzymatic activity residing in glycoprotein ERNS is inactivated, as well as methods of preparing, using and detecting these pestiviruses. |
| US08895283B2 |
Nucleic acid modifying enzymes
This invention provides for an improved generation of novel nucleic acid modifying enzymes. The improvement is the fusion of a sequence-non-specific nucleic-acid-binding domain to the enzyme in a manner that enhances the ability of the enzyme to bind and catalytically modify the nucleic acid. |
| US08895282B2 |
Use of a substance for manufacturing of a medicament for treatment of common cold
A method for treatment and/or prevention of common cold caused by rhinovirus, wherein a patient in need is treated with a medicament including a hydrogen peroxide producing enzyme. |
| US08895281B2 |
Method for preparing a site-specific physiologically active polypeptide conjugate
The present invention provides a method for preparing a site-specific physiologically active polypeptide conjugate in a high yield by treating a physiologically active polypeptide with a non-peptidyl polymer in the presence of an alcohol at a specific pH, which can be desirably employed in the development of long acting formulations of various peptide drugs having high in-vivo activity and markedly prolonged in-blood half-life. |
| US08895278B2 |
Production of volatile dienes by enzymatic dehydration of light alkenols
Described is a method for generating conjugated dienes through a biological process. More specifically, the application describes a method for producing conjugated dienes (for example butadiene, isoprene or dimethylbutadiene) from light alkenols via enzymatic dehydration, in particular by making use of an alkenol dehydratase. |
| US08895277B2 |
Legume isoprene synthase for production of isoprene
The present invention provides methods and compositions of polypeptides having isoprene synthase activity with improved performance characteristics. In particular, the present invention provides legume isoprene synthases for increased isoprene production in recombinant host cells. |
| US08895276B2 |
Microorganism variants having hydrocarbon producing ability and method for producing hydrocarbon using the same
The present invention relates to a microorganism variant having the ability to produce hydrocarbons, including alkane, and a method of producing hydrocarbons, including alkane, using the same, and more particularly, to a microorganism variant obtained by introducing a gene encoding an enzyme converting fatty acyl-acp to free fatty acid, a gene encoding an enzyme converting free fatty acid to fatty acyl-CoA, a gene encoding an enzyme converting fatty acyl-CoA to fatty aldehyde and a gene encoding an enzyme converting fatty aldehyde to alkane into a microorganism improved so as to be suitable for the production of hydrocarbons, including alkane, and a method of producing hydrocarbons, including alkane, using the same. The microorganism variant of the present invention has high potential to be used to improve strains by additional metabolic flux engineering, and thus is useful for the industrial production of hydrocarbons, including alkane. |
| US08895274B2 |
Processes for the conversion of biomass to oxygenated organic compound, apparatus therefor and compositions produced thereby
Processes are disclosed for the conversion of biomass to oxygenated organic compound using a simplified syngas cleanup operation that is cost effective and protects the fermentation operation. The processes of this invention treat the crude syngas from the gasifier by non-catalytic partial oxidation. The partial oxidation reduces the hydrocarbon content of the syngas such as methane, ethylene and acetylene to provide advantageous gas feeds for anaerobic fermentations to produce oxygenated organic compounds such as ethanol, propanol and butanol. Additionally, the partial oxidation facilitates any additional cleanup of the syngas as may be required for the anaerobic fermentation. Producer gases and partial oxidation processes are also disclosed. |
| US08895272B2 |
Methods for the economical production of biofuel from biomass
Methods for producing a biofuel are provided. Also provided are biocatalysts that convert a feedstock to a biofuel. |
| US08895270B2 |
Method for producing β-Phenylalanine
Disclosed is a method for producing a β-amino acid comprising a step of synthesizing a β-amino acid from an α-amino acid in the presence of an amino acid aminomutase. In this method, a β-amino acid is precipitated as a solid in the reaction solution. |
| US08895268B2 |
Preservation of information related to genomic DNA methylation
The present invention relates to compositions, methods and systems for analyzing the methylation state of nucleic acids. Some embodiments relate to a compositions, methods and systems for analyzing the methylation state of DNA with a gene array. |
| US08895265B2 |
Multistage fractionation process for recalcitrant C5 oligosaccharides
Methods are disclosed for increasing the level of C5 monosaccharides produced from lignocellulosic biomass using a multistage fractionation process to handle recalcitrant C5 oligosaccharides without producing unwanted degradation products. Methods for reducing C5 monosaccharides degradation products produced from lignocellulosic biomass are also disclosed. In addition, compositions and products produced by the methods are disclosed. |
| US08895263B2 |
Methods for suppressing toll-like receptor activity
Agents interfering with translocation of Toll-like receptor 3 (TLR3), methods of making and using the foregoing are disclosed. |
| US08895262B1 |
Staining method for identification of flatworms
The staining method for identification of flatworms includes placing a sample flatworm specimen on a microscope slide, mounting the flatworm specimen on the slide with a small amount of lactophenol cotton blue (LPCB) stain, waiting two to three minutes for the stain to be absorbed by flatworm tissues, covering the specimen with a cover slip, and examining the stained specimen with a microscope to identify the species-distinctive organs of the flatworm. For permanent mounting, the cover slip may be sealed to the microscope slide by nail polish. The method is effective for trematodes (flukes) and cestodes (tapeworms). Before examination, the specimen may be preserved by obtaining the flatworm from a carrier or host, washing the flatworm in saline and preserving the flatworm in alcohol, e.g. 70% alcohol. |
| US08895260B2 |
Screening assay for ribosomal antibiotics
The present invention is directed to a method for identifying ribosomal antimicrobial substances being selective for microbial but not for mitochondrial and/or cytosolic ribosomes. Specifically, said method is directed to an assay that compares the interaction of a candidate ribosomal antimicrobial substance (i) in a bacterial strain with microbial ribosomes, and (ii) in a bacterial strain with chimeric mitochondrial bacterial ribosomes, and/or (iii) in a bacterial strain with chimeric cytosolic bacterial ribosomes. In a further aspect the present invention also relates to the use of bacterial strains with microbial ribosomes, and bacterial strains with chimeric mitochondrial bacterial ribosomes, and/or bacterial strains with chimeric cytosolic bacterial ribosomes for identifying ribosomal antimicrobial substance being selective for microbial but not for mitochondrial and/or cytosolic ribosomes. Furthermore, one or more of the above bacterial strains (i) to (iii) may be substituted by a functionally equivalent cell-free biological system. |
| US08895254B2 |
Biomarkers for ankylosing spondylitis
There is described herein methods and peptides for detecting autoantibodies to NOG and/or SOST in a patient sample in order to diagnose of prognosticate Ankylosing Spondylitis in the patient. |
| US08895251B2 |
Method for detecting human BPLP protein or a maturation product thereof
The invention relates to an in vitro method for prognosis, diagnosis or determination of the evolution of a condition involving an altered production of Basic Proline-rich Lacrimal Protein (BPLP) or of any of its maturation products, by detecting, or quantifying in a biological sample of a test subject, a BPLP protein or a maturation product thereof, and comparing the production of BPLP protein or maturation product with the production of the same in a biological sample of a control subject. |
| US08895245B2 |
Inhibitors of human EZH2 and methods of use thereof
The invention relates to inhibition of wild-type and certain mutant forms of human histone methyltransferase EZH2, the catalytic subunit of the PRC2 complex which catalyzes the mono- through tri-methylation of lysine 27 on histone H3 (H3-K27). In one embodiment the inhibition is selective for the mutant form of the EZH2, such that trimethylation of H3-K27, which is associated with certain cancers, is inhibited. The methods can be used to treat cancers including follicular lymphoma and diffuse large B-cell lymphoma (DLBCL). Also provided are methods for identifying small molecule selective inhibitors of the mutant forms of EZH2 and also methods for determining responsiveness to an EZH2 inhibitor in a subject. |
| US08895243B2 |
Method of assessing cancerous conditions and reagent for detecting gene product to be used in the method
A reagent for detecting gene product, the reagent comprising a probe or chemical modulation that specifically binds to an alternative splicing junction of a gene product of human PTCH1 gene, the expression of the gene product from gene products of the human PTCH1 gene being varied due to the unusual alternative splicing, for use for measuring the abundance of the gene product contained in a human sample. |
| US08895242B2 |
Single molecule nucleic acid nanoparticles
The present technology relates to a nanoparticle platform based on the unique and varied properties of DNA. Circular DNA can be replicated using a strand displacing polymerase to generate long linear concatamers of controllable length that spontaneously fold into a ball conformation due to internal base-pairing. These balls of DNA are discreet particles that can be made in variable sizes on a nanometer size scale in a scalable manner. The particles can be used in a variety of manners, discussed herein, including specific targeting, drug delivery to cancer cells, and diagnostics. Nanoparticles may also serve as multifunctional platforms for the integration of many currently used cancer therapeutic techniques. |
| US08895240B2 |
Method, kit and system for collecting and processing samples for DNA and RNA detection
This invention relates to a method, kit and system for collecting and processing of samples to release and treat DNA and RNA for gene sequence detection. The method described here in provides for rapid and convenient release, and recovery of DNA and RNA from tissues and cellular materials. |
| US08895232B2 |
Mask material conversion
The dimensions of mask patterns, such as pitch-multiplied spacers, are controlled by controlled growth of features in the patterns after they are formed. A pattern of mandrels is formed overlying a semiconductor substrate. Spacers are then formed on sidewalls of the mandrels by depositing a blanket layer of material over the mandrels and preferentially removing spacer material from horizontal surfaces. The mandrels are selectively removed, leaving behind a pattern of freestanding spacers. The spacers comprise a material, such as polysilicon and amorphous silicon, known to increase in size upon being oxidized. The spacers are oxidized and grown to a desired width. The spacers can then be used as a mask to pattern underlying layers and the substrate. Advantageously, because the spacers are grown by oxidation, thinner blanket layers can be deposited over the mandrels, allowing the deposition of more conformal blanket layers and widening the process window for spacer formation. |
| US08895228B2 |
Method for thermal treatment of relief surface for a relief printing form
The present invention pertains to a method for preparing a printing form from a photosensitive element by thermal treatment, wherein a gas jet emitting from a nozzle assembly impinges the exterior surface of the element to smooth or polish and mitigate marks and deformations that can be generated during development. Impingement with a heated gas jet provides surface polishing from rapid and specific convective heat flux to the exterior surface of the printing plate. |
| US08895227B2 |
Developing solution for photoresist on substrate including conductive polymer, and method for forming pattern
A developing solution is disclosed with which it is possible to develop a photoresist disposed on a substrate including a conductive polymer. Also disclosed is a method for forming a resist pattern using the developing solution. The developing solution contains one or more acids and/or salts thereof, the acids being selected from inorganic acids, amino acids having an isoelectric point less than 7, and carboxylic acids having two or more carboxy groups. Use of this developing solution hence inhibits the phenomenon in which a substrate including a conductive polymer suffers an increase in surface resistivity due to a developing solution, and makes it possible to obtain a fine resist pattern. |
| US08895223B2 |
Radiation-sensitive resin composition
The radiation-sensitive resin composition includes a compound represented by a following formula (1), and a resin. The resin has an acid-dissociable group, is insoluble or hardly soluble in an alkali, and turns to be soluble in an alkali when the acid-dissociable group is dissociated. R represents a hydrogen atom or a hydrocarbon group having 1 to 20 carbon atoms, R1 represents a hydrocarbon group having 1 to 20 carbon atoms or the like, R2 to R5 each independently represent an alkyl group having 1 to 4 carbon atoms, an alicyclic hydrocarbon group having 4 to 20 carbon atoms, or the like, and R6 represents a halogen atom or the like. |
| US08895222B2 |
Actinic ray-sensitive or radiation-sensitive resin composition and resist film and pattern forming method using the composition
Provided is an actinic ray-sensitive or radiation-sensitive resin composition including (P) a resin which contains (A) a repeating unit having an ionic structure moiety capable of producing an acid anion on the side chain upon irradiation with an actinic ray or radiation, wherein a cation moiety of the ionic structure moiety has an acid-decomposable group or an alkali-decomposable group. |
| US08895220B2 |
Emulsion aggregation toner formulation
An emulsion aggregation toner formulation for electrophotography and a method for preparation thereof. The emulsion aggregation toner formulation includes a polyester resin emulsion formed using an extruded polyester binder resin having a broad molecular weight distribution. The extruded polyester binder resin is formed using a plurality of polyester binder resins. Further, the emulsion aggregation toner formulation comprises at least one colorant dispersion and a wax dispersion. |
| US08895217B2 |
Electrostatic image forming toner and developer
An electrostatic image forming toner including: toner base particles each containing at least a colorant, a binder resin, and a releasing agent, wherein the binder resin contains a non-crystalline polyester resin A and a crystalline polyester resin B, wherein a ratio of B/(A+B)×100 is 10 or more but less than 50 where (A+B) is a total mass of the non-crystalline polyester resin A and the crystalline polyester resin B and “B” is a mass of the crystalline polyester resin B, and wherein the toner base particles have a TMA compression deformation amount (TMA %) of 10% or less which is measured at 50° C. and a relative humidity of 90%. |
| US08895216B2 |
Image forming apparatus
An image forming apparatus includes an electrophotographic photoreceptor having a photosensitive layer, and a surface protective layer that contains fluororesin particles and a fluorinated alkyl group-containing copolymer; a charging unit that charges the surface of the electrophotographic photoreceptor; an electrostatic latent image forming unit that forms an electrostatic latent image; a developing unit that accommodates a developer, and develops the electrostatic latent image with the developer to form a toner image; a transfer unit that transfers the toner image to a recording medium; and a cleaning unit that removes the remained developer, wherein when the electrophotographic photoreceptor is rotated 50,000 times by repeating the formation of an image having image sections and non-image sections and having an image density of 7%, and then the surface of the electrophotographic photoreceptor is analyzed by X-ray photoelectron spectroscopy, the zinc coating ratio is in the range of from 50% to 100%. |
| US08895211B2 |
Semiconductor device resolution enhancement by etching multiple sides of a mask
A mask is disclosed which includes a plurality of first phase shift regions disposed on a first side of the mask, and a plurality of second phase shift regions disposed on a second side of the mask. The first phase shift regions and second phase shift regions may be alternating phase shift regions in which phase shift of the first phase shift regions is out of phase, for instance by 180 degrees, from phase shift of the second phase shift regions. A method for forming the mask, and a semiconductor device fabrication method using the mask is also disclosed. |
| US08895209B2 |
Mask for use in photolithography, manufacturing method thereof and manufacturing method of devices by using the mask
Provided are a photomask, including: a substrate; an opaque pattern formed on the substrate and made of a material which does not penetrate light; a first dielectric layer formed on the substrate and the opaque pattern; and a negative refractive-index meta material layer formed on the first dielectric layer, in which a dispersion mode used in the photomask uses a Quasi bound mode, a manufacturing method of the photomask, and a manufacturing method of a substrate using the photomask. |
| US08895207B2 |
Materials and their use for the electrocatalytic evolution or uptake of H2
Novel materials comprising a solid support, linker arms and metal-organic complexes, and their use for the electrocatalytic production and oxidation of H2. Such materials can be used for the production of electrodes in the field of electronics, and notably electrodes for fuel cells, electrolysers and photoelectrocatalytical (PEC) devices. |
| US08895206B2 |
Porous platinum-based catalysts for oxygen reduction
A porous metal that comprises platinum and has a specific surface area that is greater than 5 m2/g and less than 75 m2/g. A fuel cell includes a first electrode, a second electrode spaced apart from the first electrode, and an electrolyte arranged between the first and the second electrodes. At least one of the first and second electrodes is coated with a porous metal catalyst for oxygen reduction, and the porous metal catalyst comprises platinum and has a specific surface area that is greater than 5 m2/g and less than 75 m2/g. A method of producing a porous metal according to an embodiment of the current invention includes producing an alloy consisting essentially of platinum and nickel according to the formula PtxNi1-x, where x is at least 0.01 and less than 0.3; and dealloying the alloy in a substantially pH neutral solution to reduce an amount of nickel in the alloy to produce the porous metal. |
| US08895204B2 |
Water reactive hydrogen fuel cell power system
A water reactive hydrogen fueled power system includes devices and methods to combine reactant fuel materials and aqueous solutions to generate hydrogen. The generated hydrogen is converted in a fuel cell to provide electricity. The water reactive hydrogen fueled power system includes a fuel cell, a water feed tray, and a fuel cartridge to generate power for portable power electronics. The removable fuel cartridge is encompassed by the water feed tray and fuel cell. The water feed tray is refillable with water by a user. The water is then transferred from the water feed tray into the fuel cartridge to generate hydrogen for the fuel cell which then produces power for the user. |
| US08895201B2 |
High-temperature fuel cell system having a start burner
The invention relates to a high-temperature fuel cell system having a start burner. Such fuel cell systems are in particular operated at temperatures between 650° C. and 1000° C. due to the ion-conductive properties of the electrolytes used. It is necessary for this reason to carry out a heating before the actual operation of the systems, which takes place by an external supply of energy. The exhaust gas of a start burner of the high-temperature fuel cell system is supplied to a heat exchanger or to two heat exchangers in a series connection for the preheating of an oxidizing agent which can be supplied to at least one fuel cell at the cathode side. In this respect, the oxidizing agent and the exhaust gas of the start burner are conducted over the total surfaces of the one heat exchanger or of the two heat exchangers available for the heat exchange and hot, returned exhaust gas from the total system is conducted over one heat exchanger of the two heat exchangers arranged in series or in a second zone B of a single heat exchanger having two zones A and B over a part region of the surface available for the heat exchange. |
| US08895200B2 |
Fuel cell system
A fuel cell system having a fuel cell includes a power generation-time gas supplier that supplies hydrogen-containing fuel gas to an anode of the fuel cell and supplies an oxygen-containing oxidizing gas to a cathode of the fuel cell during power generation of the fuel cell. The fuel cell system also includes an anode potential rise information acquirer that acquires anode potential rise information, which represents information regarding a status of an anode potential rise of the fuel cell, after termination of supplies of the fuel gas and the oxidizing gas by the power generation-time gas supplier. The fuel cell system further includes an anode morphology variation deriver that derives an anode morphology variation representing a degree of a morphology change of a catalyst metal included in the anode, based on the anode potential rise information. |
| US08895199B2 |
Fuel cell system using hydrogen from electrolyzer of sea water
Provided is a fuel cell system using waste hydrogen generated from a sea water electrolyzing apparatus, the fuel cell system including: a sea water electrolyzing apparatus carrying out electrolysis of sea water used as cooling water in a nuclear power generation system to produce a chlorine-containing material; a hydrogen conveying line linked to one side of the sea water electrolyzing apparatus to convey waste hydrogen generated during the electrolysis; and a fuel cell linked to the hydrogen conveying line to generate electricity by using the waste hydrogen supplied from the hydrogen conveying line as fuel. The fuel cell system generates electricity by using waste hydrogen, which, otherwise, is totally discarded after being generated secondarily from the sea water electrolyzing apparatus, as fuel for the fuel cell. |
| US08895193B2 |
Plastic crystal electrolyte with a broad potential window
A solid ionic electrolyte having an organic plastic crystal solvent (e.g. succinonitrile) doped with lithium bioxalato borate salt (LiBOB) may be used in an electrochemical device. Electrochemical devices are disclosed having a cathode, an anode, and a solid ionic electrolyte having a neutral organic plastic crystal solvent doped with LiBOB alone or in combination with another lithium salt. Such devices have a stable electrolyte interface over a broad potential window combined with high energy density delivery capacity and, in one example, the favorable properties of a neutral organic plastic crystal matrix such as succinonitrile. |
| US08895191B2 |
Nonaqueous electrolyte battery and battery pack
According to one embodiment, a nonaqueous electrolyte battery is provided. A positive electrode contains a lithium-nickel-cobalt-manganese complex oxide represented by the formula Li1+aNi1−b−cCobMncO2. A negative electrode contains at least one selected from a lithium titanate having a spinel structure and a monoclinic β-type titanium complex oxide. The negative electrode further contains at least one selected from an oxide which has a spinel structure and represented by the formula AFe2O4 and an oxide which has a spinel structure and represented by the formula ACo2O4. A ratio of the total mass of AFe2O4 and ACo2O4 to the total mass of the negative electrode active material is in a range from 1% by mass to 5% by mass. |
| US08895189B2 |
Surface-mediated cells with high power density and high energy density
A surface-mediated cell (SMC) comprising: (a) a cathode comprising a carbon-based cathode active material having a surface area to capture or store lithium thereon; (b) an anode comprising an anode current collector alone, or combined anode current collector and anode active material; (c) a porous separator disposed between the anode and the cathode; (d) a lithium-containing electrolyte, wherein the anode and/or cathode active material has a specific surface area no less than 100 m2/g in direct physical contact with the electrolyte to receive lithium ions therefrom or to provide lithium ions thereto; and (e) a lithium source disposed in at least one of the two electrodes when the cell is made, and the cell has an open-circuit voltage (OCV) of at least 0.8 volts; wherein the cell operates between a lower voltage limit lower than the OCV and an upper limit of between 3.8 and 4.5 volts. |
| US08895187B2 |
Cathode active material and lithium secondary battery containing the same
Provided is a non-aqueous electrolyte-based, high-power lithium secondary battery having a long service life and superior safety at both room temperature and high temperature, even after repeated high-current charging and discharging. The battery comprises a cathode active material composed of a mixture of lithium/manganese spinel oxide and lithium/nickel/cobalt/manganese composite oxide wherein the cathode active material exhibits the life characteristics that the capacity at 300 cycles is more than 70% relative to the initial capacity, in the provision of satisfying the condition (i) regarding the particle size and the condition (ii) regarding the mixing ratio. |
| US08895186B2 |
Anode for lithium-ion rechargeable battery and lithium-ion rechargeable battery including same
It is an objective of the present invention to provide a lithium-ion rechargeable battery anode which can control the volume change of a primary particle of a negative-electrode active material other than a carbon-based material and that can prevent cracks due to stress caused by the volume change from occurring and extending. There is provided an anode for a lithium-ion rechargeable battery including a primary particle of a negative-electrode active material, a conductive material, and a binder, the negative-electrode active material including at least one of silicon and tin, and at least one element selected from elements that do not chemically react with lithium, in which holes are present both in an inner core region in the central region of the primary particle of the negative-electrode active material and in a periphery region that covers the inner core region. |
| US08895185B2 |
Binder resin precursor solution composition for electrode
A binder resin precursor solution composition for electrode containing at least (A) a polyamic acid having repeating units represented by chemical formulae (1) and (2) in a (1) to (2) molar ratio of 2:8 to 8.5:1.5 and having a tetracarboxylic acid component to diamine component molar ratio of 0.94 to 0.99, (B) a carboxylic acid compound having two pairs of carboxyl groups in the molecule thereof or an ester thereof, and (C) a solvent. |
| US08895180B2 |
Lithium polymer secondary battery with external wrapping member
A secondary battery includes an electrode assembly comprising a first electrode, a second electrode, and a separator between the first electrode and the second electrode; an external member wrapped around a side surface of the electrode assembly; a cover coupled to the external member; and a terminal protection member between the electrode assembly and the cover. |
| US08895177B2 |
Modular battery pack systems for prismatic cells
A modular frame includes a first row of cell slots configured to receive first prismatic cells of a battery pack system. A second row of cell slots is configured to receive second prismatic cells of the battery pack system. A central interface beam is disposed between the first row of cell slots and the second row of cell slots. The central interface beam includes a first side and a second side. The first side is configured to receive terminals of the first prismatic cells. The second side opposes the first side and is configured to receive terminals of the second prismatic cells. |
| US08895176B2 |
Lithium rechargeable battery module
A rechargeable lithium battery module includes a first rechargeable lithium battery cell combined with a second rechargeable lithium battery cell, the first rechargeable lithium battery cell being the same or different than the second rechargeable lithium battery cell, and the rechargeable lithium battery module has an output voltage of about 13.6 V to about 15.6 V. |
| US08895172B2 |
Apparatus and method for controlling the temperature of a battery in a hybrid electric vehicle
A method is provided for controlling the temperature of a traction battery in a hybrid vehicle, where the hybrid vehicle includes an internal combustion engine and an electric motor for traction power. The method includes providing a first temperature regulating circuit for the internal combustion engine, providing a second temperature regulating circuit for the traction battery, heating the traction battery by an electrical heater provided in the second temperature regulating circuit in series with a pump, a radiator and the traction battery, transferring power to the electrical heater via a DC/DC converter from the electrical motor, which electrical motor is driven by the internal combustion engine, while the battery is below a predetermined temperature interval. |
| US08895171B2 |
System for cooling a vehicle battery and method of installing same
Prior to loading into a vehicle, a duct is attached to a battery such that the duct is moveable between a loading position and a post-loading position. Before the battery and duct are loaded into the vehicle, the duct is positioned in the loading position. After the battery and duct are loaded into the vehicle, the duct is positioned in the post-loading position and secured. |
| US08895169B2 |
Secondary battery of novel structure
Disclosed is a secondary battery having a novel structure in which a jelly-roll type electrode assembly (“jelly-roll”) in which a cathode including a cathode active material coated portion on at least one surface of a cathode current collector, an anode including an anode active material coated portion on at least one surface of an anode current collector, and a separator disposed therebetween are wound and an electrolyte are accommodated in a battery case, and at least one of a cathode lead coupled to a cathode uncoated portion and an anode lead coupled to an anode uncoated portion includes a first metal layer used for coupling with an electrode uncoated portion and/or coupling with a battery case and a second metal layer having a relatively lower resistance than that of the first metal layer, wherein the first and second metal layers are coupled to each other. |
| US08895168B2 |
Deactivating a power source
A battery is disclosed that includes two contact areas, an electrolyte, and a conductivity mechanism to increase electron conductivity internal to the battery between the two contact areas that, in turn, deactivates the battery. In one embodiment, the conductivity mechanism is triggered external to the battery. In another embodiment, the conductivity mechanism utilizes deactivator material to increase electron conductivity through the electrolyte to deactivate the battery. In yet another embodiment, the conductivity mechanism creates multiple shorts between the two contact areas to deactivate the battery. |
| US08895166B2 |
Fuel cell system and activation method of fuel cell
A fuel cell system includes a fuel cell which generates electric power using supplied reactive gases; a load control device for controlling a load applied to the fuel cell; a voltage measuring device for measuring a voltage generated by the fuel cell; a fuel cell driving control device for controlling at least a supply of the reactive gases to the fuel cell; and a voltage variation rate obtaining device for obtaining a rate of variation in the voltage generated by the fuel cell when the load is varied. The fuel cell driving control device is controlled based on the rate of variation in the generated voltage obtained by the voltage variation rate obtaining device. The voltage variation rate being obtained when the generated voltage increases. The load being varied by applying momentarily a load to the fuel cell when the voltage variation rate is obtained. |
| US08895162B2 |
Magnetoresistive element and magnetic memory
A magnetoresistive element according to an embodiment includes: a base layer; a first magnetic layer formed on the base layer and having a changeable magnetization direction with an easy axis of magnetization in a direction perpendicular to a film plane; a first nonmagnetic layer formed on the first magnetic layer; and a second magnetic layer formed on the first nonmagnetic layer and having a fixed magnetization layer with an easy axis of magnetization in a direction perpendicular to the film plane. The first magnetic layer includes a ferrimagnetic layer having a DO22 structure or an L10 structure, the ferrimagnetic layer has a c-axis oriented in a direction perpendicular to the film plane, and the magnetization direction of the first magnetic layer is changeable by a current flowing through the first magnetic layer, the first nonmagnetic layer, and the second magnetic layer. |
| US08895156B2 |
Organic light emitting diode and organic light emitting display having the same
An organic light emitting diode that can improve a driving voltage and emission efficiency includes a first electrode, an organic layer formed on the first electrode and including an emitting layer and an electron transport layer that is doped with an organic n-type impurity, and a second electrode formed on the organic layer. The electron transport layer is made of C60. An organic light emitting display includes the organic light emitting diode. |
| US08895151B2 |
Heat insulating member, heat insulating laminated glass, and heat insulating laminated glass article
A heat insulating member including at least one cholesteric resin layer having cholesteric regularity controlled such that, in a wavelength range of 800 nm to 2,500 nm, the cholesteric resin layer has a band of reflecting 40% or more of incident light with a wavelength width equal to or wider than 300 nm; and a binder layer containing a pigment, the heat insulating member having a yellow index of 2.0 or lower. |
| US08895150B1 |
Coated glass surfaces and method for coating a glass substrate
A substrate having a coating is disclosed. The coating is formed of a plurality of layers. At least one of the layers includes a super alloy and at least two additional layers including silver. A coating for a substrate is also disclosed. A method of applying a coating to a substrate is further disclosed. |
| US08895149B2 |
Barrier layers comprising Ni-inclusive alloys and/or other metallic alloys, double barrier layers, coated articles including double barrier layers, and methods of making the same
Certain example embodiments relate to Ni-inclusive ternary alloy being provided as a barrier layer for protecting an IR reflecting layer comprising silver or the like. The provision of a barrier layer comprising nickel, chromium, and/or molybdenum and/or oxides thereof may improve corrosion resistance, as well as chemical and mechanical durability. In certain examples, more than one barrier layer may be used on at least one side of the layer comprising silver. In still further examples, a NixCryMoz-based layer may be used as the functional layer, rather than or in addition to as a barrier layer, in a coating. |
| US08895147B2 |
Elastic device using carbon nanotube film
An elastic device includes a first elastic supporter; a second elastic supporter and a carbon nanotube film. The second elastic supporter is spaced from the first elastic supporter. The carbon nanotube film has a first side fixed on the first elastic supporter and a second side opposite to the first side and fixed on the second elastic supporter. The carbon nanotube film includes a plurality of first carbon nanotubes orientated primarily along a first direction and a plurality of second carbon nanotubes having orientations different from the first direction. At least one portion of each of the second carbon nanotubes contacts with at least two adjacent first carbon nanotubes. The carbon nanotube film is capable of elastic deformation along a second direction that is substantially perpendicular to the first direction. |
| US08895145B2 |
Hydrophobic silica particles and method of producing same
Hydrophobic silica particles are produced by reacting them with a hydrosiloxane agent. |
| US08895134B2 |
Apparatus and method for coating a compressor housing
A running-in coating for a compressor housing is disclosed. The running-in coating has at least two layers where a first layer is dimensionally stable and at least one additional layer has run-in capability. |
| US08895132B2 |
Hemmed panel
The present invention relates to a hemmed panel and a method for fabricating a hemmed panel. The hemmed panel includes an inner panel, an outer panel, and an adhesive. The inner panel is provided with a first face, a second face, and an edge that defines a plurality of cutouts. The outer panel is provided with a first face, a second face, and a border flange. The border flange of the outer panel is hemmed over the edge and the first face of the inner panel to form a hemmed portion on the outer panel. The adhesive bonds the first face of the inner panel to the second face of the outer panel, bonds the hemmed portion of the outer panel to the first face of the inner panel, and is located in the plurality of cutouts. |
| US08895129B2 |
Vacuum heat insulating material and refrigerator
A highly reliable vacuum heat insulating material having excellent workability, usability, and heat insulating performance, and a heat insulation box using the vacuum heat insulating material are provided. A vacuum heat insulating material includes: a first fiber assembly made by aligning a plurality of sheet-shaped fiber assemblies, which are continuous in a length direction, so as to be next to each other in a width direction; a second fiber assembly provided so as to overlap the first fiber assembly and made by aligning a plurality of sheet-shaped fiber assemblies, which are continuous in the length direction, so as to be next to each other in the width direction; and a core material formed in a flat plate shape by winding up the first fiber assembly and the second fiber assembly continuously from inside toward outside while being displaced by a predetermined amount Xb in the width direction. |
| US08895127B2 |
Method of creating two-sided template from a single recorded master
The embodiments disclose a method of creating two-sided template from a single recorded master, including fabricating a first template using a single recorded master, wherein the first template has a changed duty cycle and an unchanged servo arc orientation, creating a replicate of the first template, wherein the replicate has a mirrored servo arc orientation and a changed duty cycle and fabricating a second template using the replicate to produce a predetermined mirrored servo arc orientation and a predetermined duty cycle for imprinting on a second side of a patterned stack. |
| US08895126B2 |
Segmented films with high strength seams
Unitary films and laminates thereof are provided having at least first and second film segments which extend adjacent one another and are permanently joined together. The first and second film segments are joined at an interface, wherein at the interface a tip of the second segment overlaps the first segment in the cross-direction of the film. The film has a thickness “T” at the tip of the second segment, and the second segment has a thickness “t” at a distance T in the cross direction from the tip of the second segment. The ratio T/t is suitably greater than about 3. The unitary films and laminates thereof are well suited, for example, for use as outer covers in personal care articles. |
| US08895123B2 |
Polyolefin multilayer pipe
Polyolefin multilayer pipes consisting at least one of the layers of a β-nucleated propylene homopolymer and/or β-nucleated copolymers from 90.0 to 99.9% by weight of propylene and 0.1 to 10.0% by weight of α-olefins. The pipes are to be classified in ring stiffness class ≧4. The pipes are suitable for non pressure pipe applications, preferably for outdoor use, for above as well as underground drainage and sewerage pipe systems, surface water pipes, pipes for cable protection, pipes for cold climate conditions and for indoor use, soil and waste water pipes. |
| US08895122B2 |
Polyamide resin composition and molded product
Disclosed is an m-xylene group-containing polyamide resin composition having excellent gas barrier properties and heat aging resistance, which contains (A) a polyamide composed of a diamine unit containing 30% by mole or more of an m-xylylenediamine unit and a dicarboxylic acid unit and (B) an aromatic secondary amine based compound and has an oxygen permeability coefficient of not more than 1 cc·mm/m2·day·atm at 23° C. and 75% RH. |
| US08895121B2 |
Polyamide resin composition and molded article
Disclosed is a polyamide resin composition having excellent gas barrier properties and heat aging resistance, which contains (A) a polyamide composed of a diamine unit containing a 1,3-bis(aminomethyl)cyclohexane unit and a dicarboxylic unit and at least either of (B) an aromatic secondary amine based compound and (D) a phenol based antioxidant and has an oxygen permeability coefficient of not more than 1.5 cc·mm/m2·day·atm at 23° C. and 75% RH. |
| US08895118B2 |
Negative dispersion retardation plate and achromatic circular polarizer
The present invention relates generally to the field of organic chemistry and particularly to the nematic lyotropic liquid crystal solution and negative dispersion retardation plate for application in 3D liquid crystal displays. The negative dispersion retardation plate comprises a substrate, and at least one optically anisotropic retardation layer comprising a multi-component guest-host composition coated onto the substrate. |
| US08895117B2 |
Polymerisable compounds and the use thereof in liquid-crystal media and liquid-crystal displays
The present invention relates to polymerisable compounds, to processes and intermediates for the preparation thereof, to the use thereof for optical, electro-optical and electronic purposes, in particular in liquid-crystal (LC) media and LC displays having a polymer-stabilized blue phase, and in LC media for LC displays of the PS or PSA (“polymer sustained” or “polymer sustained alignment”) type, and to LC media and LC displays comprising these compounds. |
| US08895111B2 |
Substrates having improved ink adhesion and oil crockfastness
A printed nonwoven web having improved oil crockfastness when an ink composition is applied to an outer surface of the nonwoven is generally disclosed. For example, an ink composition that has improved resistance to rub off of the web, even if the ink composition contacts an oily substance (e.g., baby oil, lotion, etc.), can be printed on a surface of the web. The nonwoven web can be a layer in a laminate having at least a film layer and the nonwoven web layer. For example, the printed laminate can be used as the outercover of an absorbent article. |
| US08895109B2 |
Coated springs and mattress made thereof
The invention describes a coated spring for mattresses that comprises a helical compression spring and a wrapping in the form of a bag containing the spring, wherein the bag containing the spring is injected with a polymeric reaction mixture, which after reacting or curing produces a polymeric foam, preferably of flexible polyurethane up to a desired volume in order to cause the spring to change its flexion or compression properties, as well as the method for its manufacturing and its use in the manufacturing of mattresses of different kinds. |
| US08895106B2 |
Process for coating discrete articles with a zinc-based alloyed layer
The present disclosure concerns a process suitable for coating discrete articles with a zinc-rich, fully alloyed layer. A known method for the corrosion-protection of such articles comprises the steps of hot-dip galvannealing, typically followed by painting. This hot-dip process has however to be performed at a high temperature, thereby submitting the articles to severe thermal stress. A novel vacuum deposition process of Zn is therefore presented. It is characterized in that, in the step of contacting the article with metallic Zn vapor, the temperature of the article is equal to or higher than the dew point of the Zn vapor. The process results in a coating having a uniform thickness, even on less accessible surfaces. The surface roughness is well adapted for the adhesion of paint. |
| US08895095B2 |
Beverage brewing apparatus with a filter carrier receiver
A beverage maker is disclosed with a removable filter carrier, a receiver for the removable filter carrier, and a locking mechanism to selectively secure and seal the carrier to the beverage maker by way of lifting the carrier to engage a sealing surface. In use, the filter carrier is linearly inserted into the receiver via a front face of the beverage maker. The receiver may also include the locking mechanism. The locking mechanism includes a lever that is actuated to operate the locking mechanism. Actuation of the lever is translated to lift and clamp the filter carrier against the seal surface. In the ‘sealed’ position, the lever is selectively fixed in place until the user actuates the lever so as to release the filter carrier. In the ‘released’ position, the filter carrier is still supported by the locking mechanism but it may be selectively removed from the receiver. The locking mechanism reduces or eliminates conventional issues with securing a filter carrier to a beverage maker such as properly aligning the filter carrier so that it may be secured to the beverage maker, the filter carrier disengaging from the beverage maker during use, or not being able to remove the filter carrier after a brew cycle. |
| US08895094B2 |
Processing and cooking of food with a low glycemic impact for the nutrition of diabetics, obese and for weight reducing diets
To reduce the glycemic load in the daily nutrition of diabetics, obese and for weight-reducing diets, this invention claims cooking or baking processes and other procedures for food—rich in carbohydrates—in which the structure of the raw complex carbohydrates is mostly preserved and/or short saccharides are encapsulated. This objective is attained by reducing the magnitude of the complex carbohydrate fractioning by the undesired effect of adiabatic heating during grain grinding, or during conventional cooking and also through the encapsulation of already processed monosaccharide's, disaccharides or broken carbohydrate chains in capsules within denaturalized protein matrixes, in order to make their digestion deeper and longer. These processes and procedures allow the ingestion of less restricted portions of food, very similar to the conventional ones while due to their prolonged digestion, naturally limiting the immediate production of glucose (Glycemic Index). |
| US08895090B2 |
Portion capsule and method for producing the same
A portion capsule for producing a beverage is proposed, having a capsule body with a capsule base and a filling side, with a cavity for accommodating a pulverulent or liquid beverage base being formed between the capsule base and the filling side, with a filter element being arranged between the beverage base and the capsule base, and with the filter element having a non-woven which is arranged in the region of the capsule base. |
| US08895089B2 |
Sealed battery
A sealed battery includes: a columnar battery case encapsulating a chargeable/dischargeable electrode assembly and electrolyte in an interior and having a vent that cleaves up when a pressure in the interior exceeds a threshold; a cover that covers at least a portion of an outer surface of the vent of the battery case to prevent the vent from being covered with resin which is formed on the battery case; and a temperature protection device electrically connected with a terminal of the battery case and capable of blocking electric current when a temperature exceeds a threshold. The cover includes an overhang located to cover at least a portion of the temperature protection device when the temperature protection device is mounted on the cover. The temperature protection device is at least partially covered with the overhang and, together with the cover, covered with the resin. |
| US08895086B2 |
Enteric coated multiparticulate composition with proteinaceous subcoat
A multiparticulate composition includes a plurality of individual enteric coated cores containing one or more terpene-based active ingredients and having a continuous proteinaceous subcoating layer covering the individual cores and separating the individual cores from their respective enteric coatings. The continuous proteinaceous subcoating layer prevents volatile terpene-based active ingredients from leaving the core, even when the core is heated during processing or stored for long periods above room temperature. The multiparticulate composition may be used to treat gastrointestinal disorders. |
| US08895082B2 |
Skin care formulations
Disclosed is a method of firming skin or reducing the appearance of fine lines or wrinkles comprising topically applying, to skin in need thereof, a composition comprising palmitoyl tetrapeptide 7 and a dermatologically acceptable vehicle comprising water, glycerin, butylene glycol, propylene glycol, and a chelating agent, wherein topical application of the composition to the skin firms the skin or reduces the appearance of fine lines or wrinkles, and wherein the composition is not a sunless tanning composition. |
| US08895080B2 |
Compositions and kits for ocular treatment
Embodiments of the invention provide eyelid preparations, methods, and kits, for treating ocular conditions. The eyelid preparations comprise a mixture of tea tree oil and sea buckthorn oil in a pharmaceutically acceptable carrier. |
| US08895076B2 |
Liquid composition of cisplatin coordination compound
A liquid composition containing a polymer micelle and having a pH values of 3.0 to 7.0 is provided. The micelle is constituted of a coordination compound having a block copolymer of polyethylene glycol and polyglutamic acid and cisplatin that is coordinate-bonded to the block copolymer. |
| US08895071B1 |
Thermal treatment of a pilosebaceous unit with coated metal nanoparticles
Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of thermal treatment of a pilosebaceous unit with coated metal nanoparticles are disclosed. |
| US08895065B2 |
Single unit oral dose pharmaceutical composition comprising levodopa, carbidopa and entacapone or salts thereof
There is provided a single unit oral dose pharmaceutical composition comprising a) levodopa or salts thereof from about 50 mg to about 300 mg in extended release form, b) carbidopa or salts thereof from about 10 mg to about 100 mg in extended release and c) entacapone or salts thereof from about 100 mg to about 1000 mg in immediate release form, optionally with other pharmaceutically acceptable excipients. The invention also relates to process of preparation of such compositions. |
| US08895064B2 |
Controlled release and taste masking oral pharmaceutical composition
Controlled release and taste masking compositions containing one or more active principles inglobated in a three-component matrix structure, i.e. a structure formed by successive amphiphilic, lipophilic or inert matrices and finally inglobated or dispersed in hydrophilic matrices. The use of a plurality of systems for the control of the dissolution of the active ingredient modulates the dissolution rate of the active ingredient in aqueous and/or biological fluids, thereby controlling the release kinetics in the gastrointestinal tract. |
| US08895062B2 |
Surface-layer protein coated microspheres and uses thereof
The invention provides surface-layer protein coated microspheres for delivery of a therapeutic agent to the intestine. These surface-layer protein coated microspheres generally include a core encapsulated by a microsphere which is coated by surface layer protein. The core includes a therapeutic agent, such as a defensin. The invention also includes methods of making and using the surface-layer protein coated microspheres of the invention for administering therapeutic agents to a subject in need thereof. The invention also includes pharmaceutical dosage units that include the surface-layer protein coated microspheres of the invention. The invention further includes various labeled defensins for use in the study of the properties and actions of defensins, and further includes the use of defensins, particularly HD5α in the treatment of inflammatory conditions of the bowel, such as Crohn's disease. |
| US08895060B2 |
Methods and apparatus for sealing capsules
Methods and apparatus for providing a leak-proof seal for two-piece capsules containing oil-based liquids or other compositions by a two-stage process. The capsule cap and capsule body are combined by a nitrogen purge instant bonding (NPIB) system. An overlay medium is applied to selected portions of the capsule, including near the seam formed by the interconnection of the capsule cap and capsule body to provide a substantially leak-proof seal. The overlay medium is made from materials that make up the capsule cap and capsule body, including gelatin, starch, cellulose or polysaccharides, among others, which are dispersed in a hydro-alcoholic, aqueous or organic solution. The overlay medium includes additives to impart desired qualities to the capsule and include taste-enhancers, taste-maskers, odor-enhancers and odor-maskers. The additives may include color additives, aroma additives and taste additives. |
| US08895056B2 |
Regional delivery of therapeutic agents for the treatment of vascular diseases
The present invention relates to the regional delivery of therapeutic agents for the treatment of vascular diseases wherein regional delivery refers to delivery of a therapeutically effective amount of the therapeutic agent to an area of the vessel that includes not only afflicted tissue but non-afflicted tissue at the periphery of the afflicted tissue as well. |
| US08895052B2 |
Biodegradable compositions having pressure sensitive adhesive properties
A composition comprising the reaction product of (a) an isocyanate group-containing component having an average functionality of at least 2; and (b) an active hydrogen group-containing component having an average functionality of at least 2. The composition is biodegradable, a solid at 22° C. and below, and has pressure sensitive adhesive properties at a temperature of 37° C. and relative humidity of 100%. The composition may be used to adhere polymer meshes or films to biological tissue. |
| US08895047B2 |
Combined fibrinolytic and antimicrobial catheter and uses thereof
Implantable catheters are provided which comprise an antimicrobial agent incorporated in a coating or bulk distributed, in combination with a fibrinolytic agent incorporated in a top coating. |
| US08895045B2 |
Method of preparation of bioabsorbable porous reinforced tissue implants and implants thereof
A biocompatible tissue implant. The tissue implant may be bioabsorbable, consists of a biocompatible polymeric foam. The tissue implant also includes a biocompatible reinforcement member. The polymeric foam and the reinforcement member are soluble in a lyophilizing solvent. The reinforcement may be annealed and/or coated. |
| US08895043B2 |
Reducing formaldehyde emissions in formal-containing compositions
Method for reducing the formaldehyde emission of a composition containing a formal by adding urea, urea derivatives, amino acids, guanidine or guanidine derivatives. |
| US08895039B2 |
Cosmetic preparations containing hydrocarbons
The invention relates to cosmetic and/or pharmaceutical preparations that contain selected hydrocarbons. |
| US08895038B2 |
Method for preparing a two-coloured cosmetic
The invention relates to a method for preparing a two-colour cosmetic product, particularly a two-colour cosmetic product intended for make-up, which consists of a base cosmetic product and a decorative cosmetic product in a different colour being applied onto said base cosmetic product. |
| US08895035B2 |
Alkoxyimino derivative and pest control agent
The present invention provides a novel alkoxyimino derivative or a salt thereof, as well as to a pest control agent containing the derivative or salt thereof as an active ingredient, which shows an excellent pest control effect on a wide range of pests in the agricultural and horticultural field and is also capable of controlling resistant pests. The novel alkoxyimino derivative is characterized by being represented by general formula [I] (in the formula, X, R1, R2 and Q are as defined in the specification) and the post control agent is characterized by containing as an active ingredient the alkoxyimino derivative or a salt thereof. |
| US08895031B2 |
Reagents and methods for cancer treatment and prevention
The invention generally relates to the prevention and/or treatment of cancer, and, more specifically, to the treatment of tumors, including solid tumors and their metastases, without radiation or standard chemotherapeutic agents. In one embodiment, the invention involves a method comprising: a) providing a subject with tumor cells, b) removing at least a portion of said tumor cells from said subject to create removed cells, c) treating at least a portion of said removed cells ex vivo, using stimulating agents, including thapsigargin and/or thapsigargin-related compounds, so as to create treated tumor cells; and d) introducing said treated tumor cells (or fragments thereof) in vivo into the same subject to generate anticancer therapeutic effects. |
| US08895030B2 |
Interaction of Moraxella catarrhalis with epithelial cells, extracellular matrix proteins and the complement system
The present disclosure relates to surface proteins of Moraxella catarrhalis and their ability to interact with epithelial cells via cell-associated fibronectin and laminin, and also to their ability to inhibit the complement system. These surface proteins are useful in the preparation of vaccines. The present disclosure also provides peptides interacting with fibronectin, laminin and the complement system. |
| US08895025B2 |
Infectious cDNA of north american porcine reproductive and respiratory syndrome (PRRS) virus and uses thereof
The invention provides isolated polynucleotide molecules that comprise a DNA sequence encoding an infectious RNA sequence encoding a genetically-modified North American PRRS virus, wherein the polynucleotide molecule lacks at least one detectable antigenic epitope of North American PRRS virus. The invention also provides vaccines comprising genetically modified North American PRRS virus, RNA molecules, plasmids and viral vectors comprising the isolated polynucleotide molecules. Also provided are isolated polynucleotide molecules further comprising at least one nucleotide sequence that encodes a detectable heterologous antigenic epitope, and vaccines comprising North American PRRS virus, RNA molecules, plasmids and viral vectors comprising such isolated polynucleotide molecules. |
| US08895023B2 |
Nanoparticles for providing immune responses against infectious agents
Nanoparticles for providing immune responses for the treatment or prophylaxis of infection by infectious agents such as viruses, parasites, bacteria, prions and fungi are described which comprises a core including metal and/or semiconductor atoms, wherein the core is covalently linked to a plurality of ligands, the ligands including a carbohydrate residue capable of stimulating an innate immune response, a T cell helper peptide and a danger signal. This platform may then be adapted by including one or more further ligands capable of producing a specific response to a target infectious agent. |
| US08895020B2 |
Single chain trimers and uses therefor
Single chain trimer (SCT) molecules are disclosed, comprising an MHC antigen peptide sequence, a β2-microglobulin sequence and a full-length MHC class I heavy chain sequence, joined by linker sequences. Further described are nucleic acids encoding single chain trimers. Methods for expansion of antigen-specific T cell populations using single chain trimer molecules are also disclosed. In some configurations, these methods comprise co-culturing, in a first stage, CD8+ T cells from a donor with antigen presenting cells comprising an MHC antigen peptide, and co-culturing, in a second stage, the CD8+ T cells with cells comprising an SCT which has an MHC antigen peptide sequence identical to the sequence of the antigen peptide in the first stage. The methods can provide 10,000-100,000 fold expansion of antigen-specific CD8+ T cells within about 28 days after establishing culture, and can yield over 1 billion antigen-specific CD8+ T cells expanded from an individual donor. |
| US08895019B2 |
Biofilm treatment
The invention provides a method of preventing, inhibiting or reducing a P. gingivalis biofilm in a subject comprising administering to the subject a pharmaceutical composition comprising an inhibiting agent of a polypeptide that reduces or inhibits biofilm formation and/or biofilm development. Also provided are compositions useful in the prevention, inhibition or treatment of periodontal disease or P. gingivalis infection. |
| US08895014B2 |
Bioconjugates made from recombinant N-glycosylated proteins from procaryotic cells
The present invention is directed to a bioconjugate vaccine, such as an O1-bioconjugate vaccine, comprising: a protein carrier comprising a protein carrier containing at least one consensus sequence, D/E-X-N-Z-S/T, wherein X and Z may be any natural amino acid except proline; at least one antigenic polysaccharide from at least one pathogenic bacterium, linked to the protein carrier; and, optionally, an adjuvant. In another aspect, the present invention is directed to a method of producing an O1-bioconjugate in a bioreactor comprising a number steps. |
| US08895013B2 |
Anthracycline-antibody conjugates for cancer therapy
The invention relates to therapeutic conjugates with the ability to target various antigens. The conjugates contain a targeting antibody or antigen binding fragment thereof and an anthracycline chemotherapeutic drug. The targeting antibody and the chemotherapeutic drug are linked via a linker comprising a hydrazide moiety. |
| US08895012B2 |
sgp130/Fc dimers
Described are polypeptide dimers comprising two soluble gp130 molecules wherein each of said molecules is fused to an Fc domain of an IgG1 protein and wherein the hinge region of the Fc domain is modified resulting in advantageous properties of the dimer. In a particularly preferred embodiment, the hinge region comprises the amino acid sequence motif Ala234-Glu235-Gly236-Ala237. Moreover, a pharmaceutical composition containing said dimer and various medical uses are described. |
| US08895007B2 |
Antibodies which bind to the human CC chemokine receptor 4 and uses thereof
The present invention provides antibodies which bind to an epitope in the extracellular domain of human CC chemokine receptor 4 (CCR4) and which are capable of inhibiting the binding of macrophage-derived chemokine (MDC) and/or thymus and activation regulated chemokine (TARC) to CCR4. Also provided are inter alia immunoconjugates and compositions comprising such antibodies and methods and uses involving such antibodies, particularly in the medical and diagnostic fields. |
| US08895005B2 |
Therapeutic agent
The present invention relates to agents which modulate the effect of a RAMP (Receptor Activity Modifying Protein) protein on a Calcitonin Receptor Like Receptor (CRLR). Also included in the present invention are methods and uses of such agents and assays for identifying such agents. The agents of the present disclosure may be used in the treatment of, for example, cancer, obesity and other disorders. |
| US08895001B2 |
Use of ErbB3 inhibitors in the treatment of triple negative and basal-like breast cancers
Provided are methods of suppressing growth of triple negative breast tumors and basal-like breast tumors by contacting tumor cells with an ErbB3 inhibitor, e.g., an anti-ErbB3 antibody. Also provided are methods for treating triple negative breast cancer or basal-like breast cancer in a patient by administering to the patient an ErbB3 inhibitor, e.g., an anti-ErbB3 antibody. The treatment methods can further comprise selecting a patient having a triple negative breast cancer or basal-like breast cancer and then administering an ErbB3 inhibitor to the patient. The treatment methods also can further comprise administering at least one additional anti-cancer agent to the patient in combination with the ErbB3 inhibitor. |
| US08895000B2 |
Methods for inhibiting the binding of endosialin to ligands
The invention provides methods for inhibiting the interaction of endosialin with endosialin ligands. The inhibition is effectuated on the genetic level, by inhibiting endosialin gene expression, and on the protein level, by blocking the interaction of cell-surface expressed endosialin with ligands such as fibronectin and collagen. The invention provides methods for identifying inhibitors of the interaction of endosialin with endosialin ligands. Also provided are methods for inhibiting angiogenesis and neovascularization in vivo and in vitro. |
| US08894998B2 |
Antibodies directed to αVβ6 and uses thereof
Targeted binding agents, such antibodies directed to the antigen αVβ6 and uses of such agents are described. In particular, fully human monoclonal antibodies directed to the antigen αVβ6 are disclosed. Nucleotide sequences encoding, and amino acid sequences comprising, heavy and light chain immunoglobulin molecules, particularly sequences corresponding to contiguous heavy and light chain sequences spanning the framework regions and/or complementarity determining regions (CDR's), specifically from FR1 through FR4 or CDR1 through CDR3 are disclosed. Hybridomas or other cell lines expressing such immunoglobulin molecules and monoclonal antibodies are also disclosed. |
| US08894989B2 |
PARP inhibitor compounds, compositions and methods of use
The present invention relates to tetraaza phenalen-3-one compounds which inhibit poly(ADP-ribose) polymerase (PARP) and are useful in the chemosensitization of cancer therapeutics. The induction of peripheral neuropathy is a common side-effect of many of the conventional and newer chemotherapies. The present invention further provides means to reliably prevent or cure chemotherapy-induced neuropathy. The invention also relates to the use of the disclosed PARP inhibitor compounds in enhancing the efficacy of chemotherapeutic agents such as temozolomide. The invention also relates to the use of the disclosed PARP inhibitor compounds to radiosensitize tumor cells to ionizing radiation. The invention also relates to the use of the disclosed PARP inhibitor compounds for treatment of cancers with DNA repair defects. |
| US08894988B2 |
Tamper resistant dosage forms
The present invention relates to pharmaceutical dosage forms, for example to a tamper resistant dosage form including an opioid analgesic, and processes of manufacture, uses, and methods of treatment thereof. |
| US08894987B2 |
Tamper resistant dosage forms
The present invention relates to pharmaceutical dosage forms, for example to a tamper resistant dosage form including an opioid analgesic, and processes of manufacture, uses, and methods of treatment thereof. |
| US08894985B2 |
Nitric oxide-releasing polymers
This invention relates to compositions comprising carbon-based diazeniumdiolates attached to hydrophobic polymers that releases nitric oxide (NO). The carbon-based diazeniumdiolated polymers release NO spontaneously under physiological conditions without subsequence nitrosamine formation. The present invention also relates to methods of preparing the carbon-based diazeniumdiolated polymers, compositions comprising such polymers, methods of using such compositions, and devices employing such polymer compositions. |
| US08894984B2 |
Hair treatment agent comprising 4-morpholino-methyl-substituted silicone(s)
Hair treatment agents include at least one 4-morpholino-methyl-substituted silicone, which comprises in each case at least one of the structural units of the formulae (I), (II) and (III) as described herein, where * is a bond to one of the structural units (I), (II) or (III) or an end group B (Si-bound) or D (O-bound); B represents a group —OH, —O—Si(CH3)3, —O—Si(CH3)2OH, —O—Si(CH3)2OCH3; D represents a group —H; —Si(CH3)3, —Si(CH3)2OH, —Si(CH3)2OCH3; A represents an O-bound structural unit (I), (II) or (III) or an O-bound oligomeric or polymeric radical including structural units of the formulae (I), (II) or (III) or half of a connecting O atom to a structural unit (III) or represents —OH; n, m and o represent whole numbers between 1 and 1000. |
| US08894982B2 |
Moisturizing compositions for lip
A water in oil emulsion lip treatment composition comprising at least one non-polar silicone oil, at least one non-polar organic oil, at least one amphiphilic organic emollient oil, at least one water in oil surfactant; and at least one oil in water surfactant. |
| US08894980B2 |
Wet cake composition for cosmetic products and methods of use
This invention relates to water based slurry compositions of cosmetic and personal care products and methods of making and using water based slurry compositions for cosmetic and personal care products such as foundations, eye shadows, lotions, and creams. |
| US08894975B2 |
Methods of leukemia cell detection
Methods are provided for, inter alia, determining the presence of leukemia cells in a subject, determining the change or potential change in the number of leukemia cells in the subject with time, determining whether a tissue in a subject contains a plurality of leukemia cells or a plurality progenitor leukemia cells, and determining whether a leukemia therapy administered to a subject is capable of decreasing the number of leukemia cells in a tissue of the subject. |
| US08894967B2 |
Process for the production of highly thermally-integrated hydrogen by reforming a hydrocarbon feedstock
A process for the production of highly thermally-integrated hydrogen by reforming a hydrocarbon feedstock wherein a stream of air or water, whose temperature is less by at least 200° C. than the combustion temperature inside a burner, is mixed with the effluent that is obtained from said burner, so as to reduce the temperature of this effluent to less than 725° C.; the mixture obtained is used to superheat at least one stream of water vapor and/or hydrocarbon feedstock in gaseous form, whereby said stream that is thus superheated by indirect heat exchange is injected directly into a reforming reactor where it is used as a fuel; and the second heat exchanger and is used to totally evaporate a stream of liquid water and/or hydrocarbon feedstock. |
| US08894961B2 |
Sodium cyanide process
A process for the production of sodium cyanide crystals comprising; (a) contacting impure hydrogen cyanide and sodium hydroxide in a reactor with mixing for a maximum contact time of about 5 seconds; (b) feeding the resulting mixture to a continuous evaporative crystallizer to produce a slurry of sodium cyanide crystals; (c) passing the slurry of sodium cyanide crystals from the crystallizer over a hot surface to precipitate onto the surface and remove sodium carbonate, and passing said slurry back to the crystallizer; and (d) separating the sodium cyanide crystals from the slurry. |
| US08894960B2 |
Process for removing NO and N2O from gas mixtures
A process is proposed for reprocessing the exhaust gas from a plant for producing hydroxylamine or hydroxylammonium salts by catalytic reduction of nitrogen monoxide with hydrogen for the purpose of utilization of at least a part of the nitrogen monoxide and if appropriate hydrogen present in the exhaust gas for producing hydroxylamine or hydroxylammonium salts, which comprises, in a first separation stage, selectively separating off nitrogen monoxide from the exhaust gas of the plant for producing hydroxylamine or hydroxylammonium salts. |
| US08894954B2 |
Process for removing mercaptans from a gas stream
The present invention provides a process for removing mercaptans from a gas stream gas stream, comprising the steps: a) providing a first mercaptan-comprising gas stream comprising at least a mercaptan of the general formula: R1—SH, wherein R1 is an alkyl group comprising 1 to 4 carbon atoms; and b) contacting the mercaptan-comprising gas stream with an absorption medium comprising a substituted disulphide and a nitrogen-containing base to obtain a second mercaptan-depleted gas stream, wherein: the substituted disulphide is of the general formula R2—SS—R3 wherein: R2 and R3 are carbon comprising substituents of which the corresponding R2—SH and R3—SH thiols have a vapor pressure below the vapor pressure of any R1—SH thiol. |
| US08894952B1 |
Method of reducing nitrogen oxide using amine compound as reductant
A method of reducing nitrogen oxide includes a process of injecting a reductant including an amine compound and an exhaust gas including nitrogen oxide into a catalyst system including a silver alumina (Ag/Al2O3) catalyst. |
| US08894948B2 |
Cleaning device, method for detecting suction nozzle clogging, and automatic analyzer
A cleaning device includes a discharge nozzle that discharges cleaning liquid; a suction nozzle that sucks the cleaning liquid or reaction liquid in the cleaning tank or the reaction vessel; a discard vessel connected to the suction nozzle via a pipe to discard the cleaning liquid or the reaction liquid; a detecting unit that detects whether an electrostatic capacity at least between the suction nozzle and an electrode provided in the pipe exceeds a threshold value; a determination unit that determines that the suction nozzle is clogged when a totalizing time, for which the electrostatic capacity exceeds the threshold value during a preset clogging determination time, is longer than a totalizing time, for which the electrostatic capacity exceeds the threshold value during a preset normal determination time; and a control unit that stops the discharge nozzle from discharging the cleaning liquid to the reaction vessel when the suction nozzle is clogged. |
| US08894944B2 |
Membrane with a stable nanosized microstructure and method for producing same
The present invention provides a membrane, comprising in this order a first catalyst layer, an electronically and ionically conducting layer having a nanosized microstructure, and a second catalyst layer, characterized in that the electronically and ionically conducting layer is formed from an electrolyte material, a grain growth inhibitor and/or grain boundary modifier, and a method for producing same. |
| US08894936B2 |
Portable container with automatic cartridge activator, automatic ventilator, sterilization surveillance window in the sterilization of ethylene oxide with gas diffusion system
A container with automatic cartridge activator allows automatic activation of the ethylene oxide cartridges and ampoules used in the oxide sterilization peculiar to the gas diffusion system without external human control and intervention and removal of the residual ethylene oxide from the sterilized materials at the end of the sterilization process. The container ensures safe use of the ethylene oxide without posing any danger against human health. The container also eliminates the requirement for use of sterilization bags known as Liner Bag or simply bag, traditionally used in the ethylene oxide sterilization based on gas diffusion system, also allowing instant monitoring of the sterilization conditions inside the container, the sterilization cell, from outside of the system. |
| US08894933B2 |
Portable handheld medical diagnostic devices
A portable handheld medical diagnostic device includes a front housing and a rear housing opposite the front housing. The front housing and the rear housing form a protective enclosure. A main circuit board is located in the protective enclosure. The main circuit board includes a controller facilitating a physiologic measurement. A display device is connected to the main circuit board that displays information related to the physiologic measurement. A frame is located in the protective enclosure that carries the display device and locates the display device adjacent the front housing such that the display device can be viewed from outside the protective enclosure. The frame includes a strip port formed integrally therewith that is accessible from outside the protective enclosure. |
| US08894930B2 |
Specimen processing device and specimen processing method
A specimen processing device is disclosed that comprises: a processing unit configured to aspirate a specimen from a specimen container accommodating the specimen, and to process the aspirated specimen; a state transition section configured to make the processing unit undergo transition to a pause state; an instruction accepting section configured to accept an instruction to start processing of the specimen when the processing unit is in the pause state; and a pause state releasing section configured to release the processing unit from the pause state to make the processing unit perform the processing of specimen when the instruction to start the processing is accepted by the instruction accepting section. A specimen processing method using a specimen processing device is also disclosed. |
| US08894929B2 |
Rack accommodation device
An example rack accommodation device includes a base capable of supporting supporters on a plurality of stages in a first direction and in a plurality of rows in a second direction across the first direction. The supporters are each configured to hold a rack capable of holding a plurality of upright sample holders each accommodating a sample. A first movement mechanism is configured to move the supporters in the first direction, and a second movement mechanism is configured to move the supporters in the second direction. |
| US08894925B2 |
Treating flammable materials
A method and device are provided for treating flammable materials, fuels for example, by irradiation of the materials with ultra-violet radiation. In one embodiment, the apparatus suited for connection to a fuel line includes a body with centrally-formed duct and UV light sources mounted outside of the duct at upper and lower sides. It is to be appreciated that the invention has utility for many different fuel system applications, for example in aircraft, boats and in other motive vehicles. Further, the device can be conveniently mounted, if desired, on different fuel platforms including on bowsers. |
| US08894923B2 |
Insulation brick
Presented are an insulation brick and the method of using an insulation brick to create a thermal lining. A set of corrugations are formed into a sidewall of the brick to increase the thermal insulation. A first end of the insulation brick has a convex portion while the second end of the insulation brick has a convex portion. This allows a first insulation brick to mate with another brick in an end to end configuration. |
| US08894921B2 |
Flue gas cooling and cleaning system
An improved flue gas cooler 10, or bank of coolers 10, handles flue gas G from aluminum reduction cells in an aluminum smelter plant. Each flue gas cooler 10 has a gas inlet chamber 14, a gas outlet chamber 16, and a matrix of gas cooling tubes 18 extending between the inlet chamber and the outlet chamber. Each cooling tube 18 has a bell-shaped inlet end 19 comprising an aerodynamically curved gas-accelerating profile effective to facilitate streamlined flow of flue gas G into the tube. The improved flue gas cooler makes it possible to connect the flue gas cooler to receive flue gas G direct from the aluminum reduction cells without getting clogged by dust and sublimates present in the flue gas. |
| US08894913B2 |
Method for production of an acid proof, seemless pressure vessel
The invention relates to a method for production of a cylindrical acid proof, seamless pressure vessel having hemispherical top and bottom by powder molding in an HIP (Hot Isostatic Pressing) process. Sheet metal molds are produced constituting an internal shell, lower part of an external shell, upper part of an external shell with filling spout with corresponding top and bottom. Distance pins decide the wall thickness and are mounted outward from the internal shell which is led down into the lower part of external shell whereafter shell part with filling spout closes the volume between the internal and external shells which is then filled with powder through the filling spout. The pressure vessel is placed in an HIP-process container for vacuuming, sealing, supply of high-pressure inert gas such as argon, at high temperature such as 1000° C., for processing together with the distance pins to a compact and homogenous material. |
| US08894910B2 |
Method and device for recycling compressed gas
A method and a device for recycling compressed gas where the compressed gas used in a compressed gas consumer, particularly a container blow-molding machine, is fed back into a compressed gas generator. In order to increase the recycling volume, the compressed gas from the compressed gas consumer is collected separately and fed back to at least a first and a second pressure range of the pressure generator separately according to pressure stages. |
| US08894909B2 |
Valve for making hollow footwear soles and method for using the same
Valve and method for using it to insert a gas and punch orifices in plastic in molds used for making hollow footwear soles. The valve is linearly actuated, includes a helical spring and a stop such that the valve body head seals against a seat in the valve casing. Its configuration is thus simple, inexpensive and reliable, while the method is efficient as it is performed during the processing cycle of the plastic. |
| US08894904B2 |
Star distributor
The present invention relates to a device for distributing tablet blanks to the dies of a tablet press. The present invention moreover relates to a system consisting of the device according to the invention and a tablet press and to a method for forming tablets from tablet blanks. |
| US08894903B2 |
Method for the manufacture of a fiber-reinforced component
A method for the manufacture of a fiber-reinforced component includes heating a blank of a carbon-fiber-reinforced thermoplastic plastic material to at least a melting temperature of the thermoplastic plastic material; introducing the blank into an at least two-part molding tool; forming the fiber-reinforced component by applying pressure on the blank using the molding tool; and injecting a further thermoplastic plastic material into at least one edge region of the molding tool so as to form an edge seal. |
| US08894897B2 |
Pressed, self-solidifying, solid cleaning compositions and methods of making them
The present invention relates to a method of making a solid cleaning composition. The method can include pressing and/or vibrating a flowable solid of a self-solidifying cleaning composition. For a self-solidifying cleaning composition, pressing and/or vibrating a flowable solid determines the shape and density of the solid but is not required for forming a solid. The method can employ a concrete block machine for pressing and/or vibrating. The present invention also relates to a solid cleaning composition made by the method and to solid cleaning compositions including particles bound together by a binding agent. |
| US08894896B2 |
Polymeric garment material
A method of making garment material, the method having the steps: applying coagulant (34) to a substrate (32); applying a foam (38) of the polymeric material to the substrate (32); allowing the coagulant (34) to coagulate some of the foam (38); and removing uncoagulated foam (38) from the substrate (32) to leave a layer of coagulated polymeric material on the substrate (32). |
| US08894895B2 |
Porous ceramic processing using a co-prilled wax and non-ionic surfactant mixture
This disclosure is directed to porous ceramic processing; and in particular to a method using selected pore forming materials to avoid high exotherms during the ceramic firing process, and the green bodies formed using the selected pore forming materials. The selected pore forming materials are homogeneous wax/non-ionic surfactant particles formed by a prilling process in which the wax is melted and the non-ionic surfactant is mixed into the wax prior to prilling. The disclosure is useful in the manufacture porous ceramic honeycomb bodies including ceramic honeycomb filter traps. |
| US08894893B2 |
Method of preparing silica aerogel granules
A method of preparing transparent or nontransparent silica aerogel granules. The method includes forming a granular wet gel by spraying a silica sol into alcohol, the silica sol being prepared by mixing a water glass solution or an opacifier-containing water glass solution with an inorganic acid solution, forming a granular alcohol gel through gelation aging and solvent substitution of the granular wet gel in alcohol, hydrophobically modifying the surface of the granular alcohol gel using an organic silane compound, and drying the surface modified gel at ambient pressure or in a vacuum. The method may prepare silica aerogel granules in a short period of time through heat treatment at a relatively low temperature and at ambient pressure or in a vacuum, thereby ensuring excellent economic feasibility, continuity and reliability, suited for mass production. |
| US08894888B2 |
Conductive paste composition with synthetic clay additive and its use in the manufacture of semiconductor devices
A conductive paste composition contains a source of an electrically conductive metal, a fusible material, a synthetic clay additive, and an optional etchant additive, dispersed in an organic medium. An article such as a photovoltaic cell is formed by a process having the steps of deposition of the paste composition on a semiconductor substrate by a process such as screen printing and firing the paste to remove the organic medium and sinter the metal and fusible material. The synthetic clay additive aids in establishing a low resistance electrical contact between the front side metallization and underlying semiconductor substrate during firing. |
| US08894885B2 |
Apparatus and methods for tar removal from syngas
A process and apparatus are provided for reducing content of tar in a tar containing syngas. The process includes contacting the tar containing syngas with a molecular oxygen containing gas in a first reaction zone to produce a gas mixture. The gas mixture is passed through a heat treatment zone maintained at a temperature between about 900° C. to about 2000° C. for a contact time of about 0.5 to about 5 seconds. In this aspect, at least a portion of the tar undergoes at least partial oxidation and/or cracking to produce a hot syngas. |
| US08894884B2 |
Red emitting nitride fluorescent material and white light emitting device using the same
Provided is a red emitting fluorescent material, which has a large excitation band and which is capable of efficiently emitting red fluorescence when excited by light emitted from an ultraviolet light emitting device and a blue light emitting device serving as an excitation source, in particular, even by use of an ultraviolet LED having an emission peak at near 390 nm to 400 nm, and which is capable of emitting red fluorescence when excited not only by ultraviolet and blue light from an ultraviolet light emitting device and a blue light emitting device but also by fluorescence emitted from a fluorescent material upon receipt these light beams, thereby emitting high brightness red light, and then, provided is a white light emitting device capable of emitting white light having excellent color reproducing and rendering properties. |
| US08894883B2 |
Yttrium oxide phosphor mixture and preparation method thereof
Fluorescent materials and preparation methods thereof are provided. The fluorescent materials are represented by the general formula: M, Zn1-xAlxO and Y2O3: Re, wherein Re is at least one selected from Eu and Tb, M is at least one selected from Ag, Au, Pt and Pd in the form of nano-particle, and 0<×≦0.05. The said methods include the following steps: step 1, preparing a colloid of Zn1-xAlxO; step 2, preparing a colloid of Y and Re containing the metal element M; step 3, mixing the colloid of Zn1-xAlxO with the colloid of Y and Re, aging and heating treatment to form the fluorescent materials. Compared to the Y2O3 fluorescent materials in the art the present fluorescent materials have higher luminescence efficiency, conductivity, long life and industrial applicability. |
| US08894882B2 |
Near infrared doped phosphors having an alkaline gallate matrix
Phosphors based on doping of an activator (an emitter) into a host matrix are disclosed herein. Such phosphors include alkaline gallate phosphors doped with Cr3+ or Ni2+ ions, which in some embodiments can exhibit persistent infrared phosphorescence for as long as 200 hours. Such phosphors can be used, for example, as components of a luminescent paint. |
| US08894878B2 |
Nanopolymetalic reducing agent filler
The present invention provides a nanopolymetallic reducing agent filler comprising 20%-70% iron powder, 10%-30% tourmaline power, 2%-15% copper power, 3%-10% bamboo charcoal powder, 2%-15% kaoline, 2%-15% magnesite powder, 2%-15% pyrolusite powder, and 10%-30% zeolite powder. All percentages described above are by weight. A process of forming the nanopolymetallic reducing agent filler is also provided, including grinding and ball milling raw materials of each component respectively into powder particles of 10 nm-100 μm, which are then mixed uniformly by weight percentage and granulated to form a granular mixture, and sintering the granular mixture at high temperature or cold pressing it into a granular filler. |
| US08894864B2 |
Controlled method of minimizing radioactive sludge generation in post stimulation flowback and/or produced water treatment from a saltwater, oil and/or gas well
Disclosed herein is a controlled method of minimizing radioactive sludge generation in treatment of wastewater from an oil and/or gas well. The method comprises measuring a concentration of a radioactive material in wastewater to be treated and measuring a concentration of barium in the wastewater to be treated. The method further comprises adding a calculated quantity of sulfate to the wastewater to be treated sufficient to precipitate a quantity of barium sufficient to reduce the concentration of the radioactive material to a level such that sludge precipitated in a secondary precipitation has a radiation level below a defined radiation level. |
| US08894857B2 |
Methods and systems for treating wastewater
A method and system of treating wastewater is disclosed. The treatment system has a nitrification-denitrification system comprising a sorption system, a biofilm system, and an anaerobic digester that digests or converts at least a portion of the solids or sludge from the sorption system and biofilm system. |
| US08894856B2 |
Hybrid aerobic and anaerobic wastewater and sludge treatment systems and methods
A hybrid method and system of treating wastewater with reduced energy usage is disclosed. The treatment system has a sorption system, an anaerobic digester that digests or converts at least a portion of the solids or sludge from the sorption system, and an aerobic treatment tank that partially reduces oxygen demand of a portion of the sludge from the sorption tank. |
| US08894850B2 |
Drain cover with locking mechanism
A drain cover with a locking mechanism which has a cylindrical body with a first end, a second end, an end wall at the first end and a peripheral sidewall that extends between the first end and the second end. The peripheral sidewall has an exterior surface and an interior surface which defines an interior bore. A wedge member positioned at the second end of the peripheral sidewall and is movable from a release position to a locking position. In the release position each wedge member is positioned at the second end of the peripheral sidewall. In the locking position each wedge member is moved up the exterior surface of the peripheral sidewall toward the first end. Means are provided for moving each wedge member from the release position to the locking position. |
| US08894849B1 |
Upward flow constructed wetland for treatment of water contaminated with chlorinated aliphatics
An improved upward flow constructed wetland cell for treatment of water contaminated with chlorinated aliphatics is disclosed. The improvements include adding ammonia-oxidizing microorganisms to the methane-oxidizing microorganisms already present in an oxygenated root zone and adding improved pore-water sample chambers for measuring the performance of the constructed wetland cell. |
| US08894846B2 |
Using supercritical fluids to refine hydrocarbons
This is a method to reactively refine hydrocarbons, such as heavy oils with API gravities of less than 20° and bitumen-like hydrocarbons with viscosities greater than 1000 cp at standard temperature and pressure using a selected fluid at supercritical conditions. The reaction portion of the method delivers lighter weight, more volatile hydrocarbons to an attached contacting device that operates in mixed subcritical or supercritical modes. This separates the reaction products into portions that are viable for use or sale without further conventional refining and hydro-processing techniques. This method produces valuable products with fewer processing steps, lower costs, increased worker safety due to less processing and handling, allow greater opportunity for new oil field development and subsequent positive economic impact, reduce related carbon dioxide, and wastes typical with conventional refineries. |
| US08894844B2 |
Hydroprocessing methods utilizing carbon oxide-tolerant catalysts
The invention includes a hydrotreating method for increased CO content comprising: contacting an olefinic naphtha feedstream with a hydrogen-containing treat gas stream and a hydrotreating catalyst in a reactor under hydrotreating conditions sufficient to at least partially hydrodesulfurize and/or hydrodenitrogenate the feedstream, wherein the feedstream and the hydrogen-containing treat gas stream collectively have greater than 10 vppm CO content and/or wherein the reactor inlet sees an average CO concentration of greater than 10 vppm, wherein the hydrotreating catalyst comprises a catalyst having cobalt and molybdenum disposed on a silica-based support, and wherein the hydrotreating conditions are selected such that the catalyst has a relative HDS activity at least 10% greater than an identical catalyst under identical conditions except for a collective CO content of the feedstream and/or hydrogen-containing treat gas being <10 vppm and/or a reactor inlet CO content <10 vppm. |
| US08894843B2 |
Methods for upgrading of contaminated hydrocarbon streams
A method of upgrading a heteroatom-containing hydrocarbon feed by removing heteroatom contaminants is disclosed. The method includes contacting the heteroatom-containing hydrocarbon feed with an oxidant and an immiscible acid to oxidize the heteroatoms, contacting the oxidized- heteroatom-containing hydrocarbon feed with caustic and a selectivity promoter, and removing the heteroatom contaminants from the heteroatom-containing hydrocarbon feed. The oxidant may be used in the presence of a catalyst. |
| US08894842B2 |
Optimized catalyst for catalytic reforming
The present invention concerns an optimized reforming catalyst comprising at least platinum, at least one promoter metal selected from the group formed by rhenium and iridium, at least one halogen, and at least one alumina support with a low sulphur and phosphorus content. |
| US08894838B2 |
Hydroprocessing process using uneven catalyst volume distribution among catalyst beds in liquid-full reactors
The present invention provides a process for hydroprocessing hydrocarbons with uneven catalyst volume distribution among two or more catalyst beds. The process operates as a liquid-full process, wherein all of the hydrogen dissolves in the liquid phase. Hydrocarbons can be converted in the process to provide a liquid product including clean fuels with multiple desired properties such as low density and high cetane number. |
| US08894835B2 |
Method of inspecting a metal coating and a method for analytical control of a deposition electrolyte serving to deposit said metal coating
For fast and secure determination of the quality of a metal coating as well as of an electrolyte for depositing a metal, in particular for electrolytic deposition of nickel such as of semi-gloss nickel and bright nickel and for analytical control of the deposition electrolyte, a method of inspecting a metal coating is provided, which involves the following method steps: a) depositing the metal coating from a deposition electrolyte onto a working electrode; b) electrolytically dissolving the metal coating through anodic polarization of the working electrode with respect to a counter electrode, which is in electrolytic contact with the working electrode; c) recording an electrical dissolution potential at the working electrode over time, said potential occurring during a dissolution of the metal coating; and d) determining a time-averaged vale of the dissolution potential. |
| US08894833B2 |
Beverage sterilisation device
A beverage sterilisation device comprises a housing defining an inner space, and having a first and a second end. An electrically insulated fluid path-defining conduit extends through the inner space from the first end to the second end. A first electrode has a first part positioned adjacent to the fluid path and a second part extending perpendicular to the first part. A first counter electrode defines together with the first electrode a first capacitor, and a second electrode having a third part and a fourth part. The third part is positioned adjacent to the fluid path, and the fourth part extends substantially perpendicular to the third part. A second counter electrode defines together with the second electrode a second capacitor. The first counter electrode and the second counter electrode are short-circuited by an electrical connection, and a conductive device is electrically connected between the first electrode and the second electrode. A first trigger point is defined at the second part and remote from the first part, and a second trigger point is defined at the first counter electrode opposite to the first trigger point. The device further comprises an electrical activation circuit for short-circuiting the pair of trigger points and for causing an electric field to propagate from the first trigger point and along the fluid path. |
| US08894832B2 |
Sampling plate
The present invention relates to a sampling plate. In particular the invention relates to a sampling plate for measuring certain selected properties of a liquid sample, such as the glucose levels in a blood sample. Sampling plates of the present invention have a sample zone (20) for receiving a liquid sample which is surrounded by an air porous body (4). The air porous body (4) acts to receive air from the sample zone (20) as it is displaced by an incoming liquid sample, thereby allowing efficient spreading of the liquid sample. |
| US08894831B2 |
Printed memory on strip
A test strip for analyzing a biological fluid using a test meter includes a biosensor to sense the biological fluid. The test strip includes contacts to communicate with the test meter and conductors connected to the contacts. The test strip further includes a combination of diodes, resistors, and short circuits arranged in various ways between the conductors. The test strip stores data based on a number of connections severed between the diodes, the resistors, the short circuits, and the conductors. The test meter reads the data and communicates with the biosensor via the contacts. |
| US08894830B2 |
CO2 utilization in electrochemical systems
A low-voltage, low-energy electrochemical system and method of removing protons and/or producing a base solution comprising hydroxide and carbonate/bicarbonate ions, utilizing carbon dioxide in a cathode compartment that is partitioned into a first cathode electrolyte compartment and a second cathode electrolyte compartment such that liquid flow between the cathode electrolyte compartments is possible, but wherein gaseous communication between the cathode electrolyte compartments is restricted. Carbon dioxide gas in one cathode electrolyte compartment is utilized with the cathode electrolyte in both compartments to produce the base solution with less that 3V applied across the electrodes. |
| US08894829B2 |
Water electrolysis apparatus
A water electrolysis apparatus is formed by stacking a plurality of unit cells. Each unit cell includes a membrane electrode assembly, and an anode separator and a cathode separator which sandwich the membrane electrode assembly therebetween. The anode separator has a plurality of inlet joint channels in fluid communication with a water supply passage, and a plurality of outlet joint channels in fluid communication with a discharge passage. The water supply passage has an inner wall surface at which the inlet joint channels are open, and an outer wall surface which faces the inner wall surface, the inner wall surface and the outer wall surface jointly forming an opening of an oblong cross-sectional shape. |
| US08894826B2 |
Copper indium gallium selenide (CIGS) thin films with composition controlled by co-sputtering
A method and apparatus for forming a thin film of a copper indium gallium selenide (CIGS)-type material are disclosed. The method includes providing first and second targets in a common sputtering chamber. The first target includes a source of CIGS material, such as an approximately stoichiometric polycrystalline CIGS material, and the second target includes a chalcogen, such as selenium, sulfur, tellurium, or a combination of these elements. The second target provides an excess of chalcogen in the chamber. This can compensate, at least in part, for the loss of chalcogen from the CIGS-source in the first target, resulting in a thin film with a controlled stoichiometry which provides effective light absorption when used in a solar cell. |
| US08894821B2 |
Dividing wall column for preparing high-purity 2 ethylhexyl-acrylate and preparation method using same
Disclosed is a dividing wall column for preparing high-purity 2-ethylhexyl-acrylate, and a method for distilling 2-ethylhexyl-acrylate. The dividing wall column provides an effect having two distillation columns through one distillation column, thereby having an effect of reducing energy compared to the conventional processing device in preparing high-purity 2-ethylhexyl-acrylate and an effect of reducing equipment costs of the device. |
| US08894820B2 |
Alkylation apparatus, fractionation zone, and method relating thereto
One exemplary embodiment can be a fractionation zone for an alkylation apparatus. The fractionation zone can be a column adapted to receive a feed including at least one alcohol, water, and at least one ketone. The column may provide an overhead stream including the at least one ketone and a side-stream including the at least one alcohol and water. |
| US08894819B2 |
In-line drainer with shaped screen slots
An in-line drainer or liquid separator for draining liquid from a moving black liquor slurry stream having a screen basket mounted in the internal chamber of the in-line drainer. The screen basket includes slots to retain solid particles of the moving black liquor slurry stream within the black liquor slurry stream flow chamber and block the solid particles from entering the liquid collection chamber. The slots each have a curved corner edge adjacent a surface screen basket facing the black liquor slurry stream flow chamber. |
| US08894817B1 |
Wet end chemicals for dry end strength
The invention provides methods and compositions for increasing the dry strength of paper. The invention utilizes a tailored strength agent whose size and shape is tailored to fit into the junction points between flocs of a paper sheet. The strength agents is in contact with the slurry for just enough time to collect at the junction points but not so much that it can migrate away from there. |
| US08894815B2 |
Storage stable solutions of optical brighteners
The instant invention relates to storage stable solutions of optical brighteners based on certain salt forms of anilino-substituted bistriazinyl derivatives of 4,4′-diaminostilbene-2,2′-disulphonic acid and of organic acids which do not need extra solubilizing additives. |
| US08894811B1 |
Air dispersion of mineral fibers in ceiling tile manufacture
A method of forming a dilute water slurry for water felting a basemat for an acoustical ceiling tile comprising delivering a bale of compressed mineral wool with a density of at least 8 lbs. per cubic foot at an unbaling station, releasing a binding holding the bale in compression, mechanically separating the fibers of a mineral wool bale with mechanical instrumentalities arranged to disperse the fibers to a generally uniform density of less than 2 lbs. per cubic foot prior to passage of the fibers through the tank inlet, and causing the separated mineral fibers to pass into the mixing tank for contact with water suspended binder. |
| US08894809B2 |
Method for disconnecting, by induction, a magnetic mechanical part adhered to a mechanical part
A method for disconnecting a first mechanical part from a second magnetic mechanical part, the first mechanical part being adhered to the second magnetic mechanical part by an adhesive film along a connecting area. In the method, a magnetic field is generated at least within the connecting area so as to generate, by induction, eddy currents in the second magnetic mechanical part, to soften the adhesive film and enable disconnection of the first and second mechanical parts. |
| US08894807B2 |
Device and method for detaching a semiconductor wafer from a substrate
Device for stripping a product substrate from a carrier substrate connected to the product substrate by an interconnect layer by means of a flexible film that is mounted on a film frame and that comprises an adhesive layer for holding the product substrate in a bonding surface section of the film, the film being mounted on the film frame in an attachment section of the film that surrounds the bonding surface section, and the film comprising a stripping section that is located between the bonding surface section and the attachment section, the device having stripping means for effecting a stripping of the product substrate from the carrier substrate from a periphery of the product substrate.Furthermore, the invention relates to a method for stripping a product substrate from a carrier substrate connected to the product substrate by an interconnect layer by means of a flexible film that is mounted on a film frame and that comprises an adhesive layer for holding the product substrate in a bonding surface section of the film, the film being mounted on the film frame in an attachment section of the film that surrounds the bonding surface section, and the film comprising a stripping section that is located between the bonding surface section and the attachment section, and a stripping of the product substrate from the carrier substrate from the periphery of the product substrate being caused by the stripping means. |
| US08894806B2 |
Plasma processing apparatus and plasma processing method
A plasma processing apparatus includes a vacuum evacuable processing chamber; a lower electrode for mounting a target substrate in the processing chamber; a focus ring attached to the lower electrode to cover at least a portion of a peripheral portion of the lower electrode; an upper electrode disposed to face the lower electrode in parallel in the processing chamber; a processing gas supply unit for supplying a processing gas to a processing space; and a radio frequency (RF) power supply for outputting an RF power. Further, the plasma processing apparatus includes a plasma generating RF power supply section for supplying the RF power to a first load for generating a plasma of the processing gas; and a focus ring heating RF power supply section for supplying the RF power to a second load for heating the focus ring. |
| US08894805B2 |
Electron beam plasma source with profiled magnet shield for uniform plasma generation
A plasma reactor employs an e-beam source to generate plasma, and the e-beam source has a configurable magnetic shield. |
| US08894801B2 |
Composite structures having composite-to-metal joints and method for making the same
A composite structure comprises stacked sets of laminated fiber reinforced resin plies and metal sheets. Edges of the resin plies and metal sheets are interleaved to form a composite-to-metal joint connecting the resin plies with the metal sheets. |
| US08894796B2 |
Nanopore fabrication and applications thereof
In one aspect, methods of nanopore formation in solid state membranes are described herein, In some embodiments, a method of forming an aperture comprises providing at least one solid state membrane in a chamber, selecting a first dose of ions sufficient to provide a first aperture of predetermined diameter through the membrane and exposing a surface of the membrane at a first location to the first dose of ions in a focused ion beam having a focal point of diameter less than or equal to about 1 nm to remove material from the membrane at the first location thereby providing the first aperture having the predetermined diameter or substantially the predetermined diameter. |
| US08894790B2 |
Corrugated metallic foil tape
A metallic foil tape having a top surface and a bottom surface with an adhesive applied to at least one of the top surface or the bottom surface of the metallic foil tape and corrugations in the metallic foil tape providing for expansion of the corrugated metallic foil tape in a circular or semi-circular shape. The corrugated metallic foil tape is suitable to be applied to contoured or three-dimensional surfaces, and is particularly suitable for use in sealing or joining components of heat, ventilation, and air conditioning (HVAC) units. |
| US08894786B2 |
Process for making a hose
The hose includes an outer jacket which includes warp and weft fibers made of Vectran®. The process for making the hose, includes: forming an inner liner and coating the exterior thereof with adhesive; weaving, in a twill weave pattern, Vectran® yarn, in a repeating 2-4-2-4-2 pattern in both the warp and the weft directions; extruding polyurethane onto the woven vectran yarn, the polyurethane extending into pillars between the warp and weft yarn, forming an outer liner; inserting the inner liner coated with adhesive within the outer liner; and, pressurizing the inner liner with steam expanding the inner liner and the adhesive into engagement with the Vectran® yarn and polyurethane pillars of the outer liner. |
| US08894783B2 |
Metal augmented charge
This invention relates to an apparatus for explosively dispersing particles of reactive metals into the atmosphere to form a fuel-air explosive. Also, this invention relates to a composition, which enhances the performance of metal augmented charge (MAC) devices. The metal augmented charge (MAC) includes flaked aluminum powder and polytetrafluorethylene. The MAC is pressed into solid billets. A preferred embodiment of the present invention involves a system with heavy-walled warhead, which comprises a canister and a cylinder of MAC disposed in the canister, so that said cylinder is in contact with the interior wall of the canister. Further, a high explosive is disposed in the cylinder with a fuze in direct contact with the high explosive, in such a way that the fuze detonates the high explosive. |
| US08894782B2 |
Hypergolic hydrocarbon fuels
Reduced toxicity fuels containing hydrocarbons having both strained rings and internal, conjugated triple bonds are disclosed. The fuels described herein are hypergolic with nitrogen tetroxide and/or inhibited red fuming nitric acid. |
| US08894780B2 |
Nickel/iron-based braze and process for brazing
Disclosed are a braze, such as a braze in the form of an amorphous, ductile brazing foil, having a composition consisting essentially of FeaNirestSibBcMd with 5 atomic percent≦a≦35 atomic percent, 1 atomic percent≦b≦15 atomic percent, 5 atomic percent |
| US08894778B2 |
Carburized and high-frequency hardened part having high strength
The present invention relates to a mechanical part, which is obtained by: processing a steel into a shape of a part, the steel having an alloy composition containing, by weight percent, C: 0.10 to 0.30%, Si: 0.50 to 3.00%, Mn: 0.30 to 3.00%, P: 0.030% or less, S: 0.030% or less, Cu: 0.01 to 1.00%, Ni: 0.01 to 3.00%, Cr: 0.20 to 1.00%, Al: 0.20% or less, N: 0.05% or less, and the remainder of Fe and inevitable impurities, and the alloy composition satisfying the following condition: [Si %]+[Ni %]+[Cu %]−[Cr %]>0.50, in which [Si %], [Ni %], [Cu %] and [Cr %] represent the concentration of Si, the concentration of Ni, the concentration of Cu and the concentration of Cr in the alloy composition, respectively; subjecting the steel to a carburizing treatment in a vacuum, followed by gradually cooling the steel; and subsequently subjecting the steel to a high-frequency hardening to thereby harden a surface of the steel. |
| US08894777B2 |
Surface treatment method of magnesium alloy article and structure thereof
A surface treatment method of a magnesium alloy article includes, instead of forming a primer on a magnesium alloy based composite first, directly performing a hairline finish process on the magnesium alloy based composite, to form a hairline structure on a surface of the magnesium alloy based composite, and performing a chemical oxidation process on the magnesium alloy based composite, to form a glossy film covering the hairline structure on the magnesium alloy based composite, thereby forming a magnesium alloy article structure. Alternatively, another chemical oxidation process is performed before the hairline finish process, to form an oxide film on the surface of the magnesium alloy based composite. |
| US08894775B2 |
Substrate processing apparatus and substrate processing method
After a substrate is cleaned, a liquid layer of a rinse liquid is formed so as to cover one surface of the substrate. Then, a liquid supply nozzle moves outward from above the center of the substrate. The liquid supply nozzle is stopped once at the time point where it moves by a predetermined distance from above the center of the substrate. In this time period, the liquid layer is divided within a thin layer region by a centrifugal force, so that a drying core is formed at the center of the liquid layer. Thereafter, the liquid supply nozzle moves outward again, so that a drying region where no rinse liquid exists expands on the substrate with the drying core as its starting point. |
| US08894770B2 |
Process and apparatus to treat metal surfaces
A method for treating metal parts is provided that includes positioning a metal part within a reactor chamber, and positioning a boron containing solid form having a porosity of at least 10% by volume in the reactor chamber adjacent to the metal part. A halide containing gas may be introduced to the reactor chamber that the boron containing solid form is present in. The at least one halide containing gas and the boron containing form react to provide a gas that borides the metal part. |
| US08894769B2 |
Material evaporation chamber with differential vacuum pumping
The invention concerns a material evaporation chamber including a vacuum chamber (10), a first pumping unit (13) to pump said chamber and sources of material. According to the invention, a wall (23) liable to provide total or partial vacuum tightness, delineates within this chamber a first volume (25) and a second volume (22). Certain sources of material (17) having a main axis (18) are placed in the second volume (22). This second volume (22) is pumped by a second pumping unit (24). The wall (23) includes recesses (26) which are each centered on the main axis (18) of one of the sources of material (17). The evaporation chamber also comprises means (27) for plugging or clearing each of said recesses (26), said means (27) being controlled individually to protect the sources of material (17) having a main axis (18) unused. |
| US08894766B2 |
Process for production of polycrystalline silicon
The invention provides a process for producing polycrystalline silicon, including introduction of a reaction gas containing a silicon-containing component and hydrogen by means of one or more nozzles into a reactor including at least one heated filament rod on which silicon is deposited, wherein an Archimedes number Arn which describes flow conditions in the reactor, as a function of the fill level FL which states the ratio of one rod volume to one empty reactor volume in percent, for a fill level FL of up to 5% is within the range limited at the lower end by the function Ar=2000×FL−0.6 and at the upper end by the function Ar=17 000×FL−0.9, and at a fill level of greater than 5% is within a range from at least 750 to at most 4000. |
| US08894765B1 |
High polarization energy storage materials using oriented single crystals
A PIN-PMN-PT ferroelectric single crystal and a method of manufacture are disclosed. The PIN-PMN-PT ferroelectric single crystal is oriented and polarized along a single crystallographic direction. The PIN-PMN-PT ferroelectric single crystal ferroelectric has increased remnant polarization. |
| US08894755B2 |
Gas-liquid separator
A gas-liquid separator includes a housing which encloses a separation chamber, an inlet port for feeding the multi-phase flow into the separation chamber, a liquid outlet port for discharging the liquid dominated flow from the separation chamber and a gas outlet port provided at a position above both the inlet port and the liquid outlet port for discharging the gas dominated flow from the separation chamber. Both the inlet port and the liquid outlet port are positioned adjacent to an elongated lower bottom wall of the housing and define a flow direction into the and out of the separation chamber approximately aligned along the bottom wall. The separation chamber extends above the bottom wall in between the inlet port and the liquid outlet port. The liquid outlet port is provided with a gas seal to prevent entrainment of free gas from the separation chamber into the liquid outlet port. |
| US08894754B2 |
Breathing and desiccant regenerating cycle for reducing condensation in concentrator photovoltaic modules
A concentrator photovoltaic apparatus for controlling internal condensation includes a light receiving module including one or more photovoltaic cells in a waterproof enclosure, at least one primary lens sealed to the waterproof enclosure for concentrating sunlight, a waterproof breather membrane regulating the pressure of the air located inside the enclosure, and a regenerative desiccant in a thermally decoupled dryer tube or thermally coupled to an internal surface of the enclosure. Smaller breather membrane vents and/or positive time delays between the temperature of the desiccant and the temperature of the enclosure may prolong an adsorption phase of the desiccant, which may substantially contribute to efficiency, reliability, and autonomous control of condensation. |
| US08894750B2 |
Holding tank-less water ozonating system
A system is described herein which provides an ozonated liquid. The system comprises a liquid inlet arranged to continuously accept a liquid into the system at a desired flow rate; a liquid outlet to dispense ozonated liquid out of the system, the ozonated liquid having an oxidation-reduction potential of at least 450 mV due solely to ozone dissolved in the liquid, the liquid outlet being in fluid communication with the liquid inlet and arranged to dispense the ozonated liquid out of the system at the desired flow rate. The system has a tank-less ozonation flow path between the liquid inlet and the liquid outlet, the flow path adapted to ozonate the accepted liquid, producing the ozonated liquid to be dispensed out of the system. The accepted liquid has a fluid residence time in the ozonation flow path of less than 5 minutes prior to being dispensed as the ozonated liquid. |
| US08894748B2 |
Systems and methods for removing particulate matter from a gas stream
Horizontal duct scrubbing systems for removing particulate matter from a gas are disclosed. The horizontal scrubbing systems may receive a particulate-containing gas stream (e.g., containing PM10 and/or PM2.5 particulate matter), and remove at least some of such particulates by spraying liquid droplets co-current to the flow of the gas stream, where the liquid droplets have a volume median droplet diameter (DV0.5) of from 240 microns to 600 microns. The scrubbing system may be substantially free of flow deflection members between a liquid inlet manifold and a demister. The system may be remove at least 50 wt. % PM10 and/or PM2.5 particulate matter from the gas stream. |
| US08894740B2 |
Process for the recovery of gold from an ore in chloride medium with a nitrogen species
A process and system for recovery of gold from an ore having the steps of i) providing the ore containing the gold to be recovered, ii) leaching the ore in an oxidative chloride medium, including a nitrogen species to produce a solution comprising gold; and iii) recovering the gold from the solution. The gold in a preferred embodiment is recovered from refractory and carbonaceous ores. |
| US08894738B2 |
Titanium alloy
A titanium base alloy powder having lesser amounts of aluminum and vanadium with an alkali or alkaline earth metal being present in an amount of less than about 200 ppm. The alloy powder is neither spherical nor angular and flake shaped. 6/4 alloy is specifically disclosed having a packing fraction or tap density between 4 and 11%, as is a method for making the various alloys. |
| US08894735B2 |
Intake device for engine
The intake device for an engine includes a carburetor section and an air cleaner section. The carburetor section includes a body having an intake passage which has an opening communicating with the air cleaner section and a choke valve being a butterfly valve having a plate-like valve body. The air cleaner section includes an air filter, an air-flow chamber provided between the air filter and the intake passage, and a reverse-flow restriction surface provided within the air-flow chamber. The air cleaner section further includes a plate-like partition extending from a location near an air-cleaner side periphery of the valve body of the choke valve in the full-open position to a location near the reverse-flow restriction surface so as to continue the periphery. |
| US08894733B2 |
Method for recycling cerium oxide abrasive
Disclosed is a method for recycling a cerium oxide abrasive. The method may include adding a strong alkali solution to a slurry waste of the cerium oxide abrasive, adding sodium fluoride to the slurry waste, and separating a cerium oxide particle included in the slurry waste from other kinds of particles. |
| US08894729B2 |
Gasification reactor
A gasification reactor comprising a gasifier with a tubular gastight wall arranged within a pressure vessel. The gasification reactor comprises one or more pressure responsive devices comprising a sleeve with a cooled section extending outwardly from an opening in the gastight wall. The pressure responsive devices can, e.g., include a pressure measurement device and/or a pressure equalizer. Method of using a pressure responsive device with such a gasifier, wherein a heat sluice is used formed by a sleeve with a cooled section extending outwardly from an opening in the gastight wall. |
| US08894728B2 |
Device for gasification of carbonaceous fuels
In the case of a device for gasification of carbonaceous fuels, having a discharge for slags into a slag bath, a solution is supposed to be created with which the gasifier discharge opening is reliably kept at a temperature that guarantees that the slag will flow out. This is achieved in that the gasifier discharge opening (6) is equipped with a ceramic drip edge (7) that can be electrically heated. |
| US08894727B2 |
High octane number composition useful as fuel for internal combustion and controlled ignition engine
The present invention discloses a fuel composition useful for internal combustion engine having an Octane Number from 95 to 105 comprising: (a) an unleaded and devoid of organometal compounds base gasoline having an Octane Number (RON) from 90.1 to 103: (b) one or more aromatic amines selected in the group consisting of: (b1) 2,4-dialkylaniline, wherein the alkyl groups in position 2 and 4, independently one from the other, are selected in the group consisting of methyl, ethyl, n-propyl, iso-propyl, preferably both the alkyl groups in position 2 and 4 are methyl; (b2) N-Nitrosodiphenylamine. The process for preparing the above composition is also described along with the use of the aromatic amines selected between (b1) and (b2) and related mixtures for increasing the Octane Number. |
| US08894726B2 |
Fuel additive for improved performance in fuel injected engines
A fuel composition for a fuel injected diesel engine, a method for improving performance of fuel injectors and a method for cleaning fuel injectors for a diesel engine. The fuel composition includes a major amount of fuel and a minor effective amount of a reaction product of (i) a hydrocarbyl substituted compound containing at least one tertiary amino group and (ii) a halogen substituted C2-C8 carboxylic acid, ester, amide, or salt thereof, wherein the reaction product as made is substantially devoid of free anion species. |
| US08894723B2 |
Formation of a lithium comprising structure on a substrate by ALD
A method for the formation of lithium includes a layer on a substrate using an atomic layer deposition method. The method includes the sequential pulsing of a lithium precursor through a reaction chamber for deposition upon a substrate. Using further oxidizing pulses and or other metal containing precursor pulses, an electrolyte suitable for use in thin film batteries may be manufactured. |
| US08894721B2 |
Beam welding of a multi-sheet work stack with a single common welding interface
A method for beam welding a multi-sheet work stack includes positioning a first sheet adjacent to a second sheet, and positioning a third sheet adjacent to the second sheet such that a single common welding interface is defined. An energy beam is directed onto the interface until a fusion weld forms along the interface. The third sheet may define a flange or a tab portion. The flange portion may be placed in direct contact with the first sheet along the interface, while the tab portion may be inserted into a slot of the second sheet to contact the first sheet at the interface. The beam may be a laser or ion beam. The lower melting temperature sheet may be positioned farther from the source of the energy beam than the other sheets. The welded assembly may be a battery module, with the sheets being an interconnect member and battery tabs. |
| US08894719B2 |
Suspension liner system with seal
A suspension liner sleeve adapted to provide an interface between a residual limb and a prosthetic socket, and having outer and inner surfaces. The liner sleeve includes an elongate, generally conical body portion formed from at least one material segment defining the liner outer surface. The at least one material segment being at least radially elastically extensible from a relaxed non-extended condition and including proximal and distal end areas. The liner sleeve includes a layer of polymeric material disposed on the at least one material segment and defining the liner sleeve inner surface, and a plurality of resilient seal elements protruding radially from the liner sleeve outer surface. The plurality of seal elements extend around at least one peripheral portion of the liner body portion. A pair of opposed annular recesses may be adjacently located above and below each of the at least one seal element. |
| US08894714B2 |
Unlinked implantable knee unloading device
A system and method for sharing and absorbing energy between body parts. In one particular aspect, the system is an unlinked structure which facilitates absorbing energy between members forming a joint such as between articulating bones. |
| US08894710B2 |
Lockable spinal implant
A spinal implant which is configured to be deployed between adjacent vertebral bodies. The implant has at least one extendable support element with a retracted configuration to facilitate deployment of the implant and an extended configuration so as to expand the implant and effectively distract the disc space, stabilize the motion segments and eliminate pathologic spine motion. Angular deformities can also be corrected, and natural curvatures restored. Preferably, the implant has a minimal dimension in its unexpanded state that is smaller than the dimensions of the neuroforamen through which it typically passes to be deployed within the intervertebral space. The implant is provided with a locking system preferably having a plurality of locking elements to lock the implant in an extended configuration. |
| US08894707B2 |
Tendon or ligament tissue engineering
This document relates to methods and materials involved in tendon or ligament tissue engineering. For example, methods and materials for generating a composite of acellular tendon or ligament allograft slices seeded with cells and bundled into a graft for tissue repair are provided. |
| US08894704B2 |
Systems and methods for treating lumenal valves
The present embodiments relate to systems and methods for treating lumenal valves. Particularly, and in accordance with one aspect, the present disclosure is directed to methods and systems for partial or complete replacement of lumenal valves. An exemplary catheter in accordance with the disclosure includes an elongate body having a proximal end and a distal end, and a retractable sheath mounted on the elongate body proximate the distal end. The sheath and elongate body cooperating to define a first annularly-shaped compartment between the body and sheath. The catheter further includes a valve prosthesis mounted in the compartment, the prosthesis having proximal and distal ends connected to a means for deploying the valve prosthesis from the catheter. |
| US08894701B2 |
Hybrid balloon-expandable/self-expanding prosthesis for deployment in a body vessel and method of making
A hybrid prosthesis for deployment in a body vessel includes a tubular stent body comprising a wire comprising a shape memory alloy, where the tubular stent body has a self-expanding portion comprising a distal portion of the wire and a balloon-expandable portion comprising a proximal portion of the wire. The shape memory alloy comprises an Af of less than 37° C. in the self-expanding portion and an As of greater than 37° C. in the balloon-expandable portion. |
| US08894692B2 |
Pedicle screw assembly and methods therefor
A method for stabilizing a spine includes providing a coupling element having upper and lower ends, a rod receiving opening adapted to receive an elongated stabilizing rod, a bore extending through the lower end and a seat surrounding the bore adjacent the lower end; providing a fastener having upper and lower ends, a head having a radial surface, and at least one anchoring element between the lower end of the fastener and the head; assembling the fastener with the coupling element; anchoring the fastener to bone; moving the coupling element relative to the fastener for capturing the elongated stabilizing rod in the rod receiving opening; and urging the captured stabilizing rod toward the head of the fastener so that the rod contacts the head and forces the radial surface of the head against the seat. |
| US08894691B2 |
Polyaxial screw
The present invention generally is directed toward a spinal fixation system whereby a coupling element allows the physician to selectively lock or unlock either the connection between the coupling element and a fastener, such as to allow for repositioning of the coupling element, or the connection between the coupling element and an elongate rod. The locking or unlocking of these connections may be made independently and as desired by the physician. |