| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | NANOPATTERNING METHOD AND APPARATUS | US13546436 | 2012-07-11 | US20120274004A1 | 2012-11-01 | Boris Kobrin |
| Embodiments of the invention relate to methods and apparatus useful in the nanopatterning of large area substrates, where a movable nanostructured film is used to image a radiation-sensitive material. The nanopatterning technique makes use of Near-Field photolithography, where the nanostructured film used to modulate light intensity reaching radiation-sensitive layer. The Near-Field photolithography may make use of an elastomeric phase-shifting mask, or may employ surface plasmon technology, where a movable film comprises metal nano holes or nanoparticles. | ||||||
| 42 | Plate pallet alignment system | US12045058 | 2008-03-10 | US07888664B2 | 2011-02-15 | Pavel Korolik; Moshe Beres; Tamir Olpak; Shay Regev; Mark Silverman |
| A plate pallet alignment and loading apparatus (10) for originally packed plate pallet (13) into a printing plate imaging device (71) includes plate pallet adaptor (11) wherein the originally packed plate pallet (13) is placed on top; plate pallet position detectors (15, 21, 31) attach to the plate pallet adaptor (11); a pallet alignment and loading apparatus (10) loads the plates from the originally packed plate pallet (13) into the printing plate imaging device; interleaf removal system (16) separates separation paper sheets placed between the plates; and plate pallet position correction actuators (43, 44, 45) corrects the plate pallet position in respect to the plate loading system (14) in response to pallet position results read from the plate pallet position detectors. | ||||||
| 43 | PACKAGING DEVICE FOR AN ELECTRONIC ELEMENT AND METHOD FOR MAKING THE SAME | US12720310 | 2010-03-09 | US20100230156A1 | 2010-09-16 | Wen-Chung Chiang; Keng-Chung Wu; Ying-Chi Hsieh; Cheng-Kang Lu; Ming-Huang Fu |
| A method for making a packaging device for an electronic element includes: preparing a ceramic frame body defined with a hollow space for receiving the electronic element therein; preparing a ceramic substrate having a copper layer formed thereon; etching the copper layer to form a predetermined copper pattern on an upper surface of the ceramic substrate; placing the ceramic frame body onto the upper surface of the ceramic substrate and in contact with the copper pattern ; and heating the ceramic frame body and the ceramic substrate such that the copper pattern bonds the ceramic frame body to the ceramic substrate. A packaging device for an electronic element is also disclosed. | ||||||
| 44 | PROCESS FOR THICK FILM CIRCUIT PATTERNING | US12371676 | 2009-02-16 | US20100209843A1 | 2010-08-19 | ATSUHIKO SATO |
| The invention relates to forming an electrically functional pattern on a substrate. More specifically, the invention relates to a process for using a photosensitive element in combination with a sheet having a thick film composition applied to a support. | ||||||
| 45 | Packaging assembly for printing plates | US12217289 | 2008-07-02 | US20100000898A1 | 2010-01-07 | Johannes Bohn; Ly Phuoc Do; Dietmar Dudek; Karl-Heinz Frey; Harald K. Herget; Kurt Lehnung; Johann Pistor; Traugott Schmutz; Reimund Simon; Karl-Heinz Wiedenmann |
| The invention relates to a packaging assembly for printing plates and a method for packing the printing plates including a packaging container having a base, and at least one printing plate positioned in the container adjacent the base, wherein an interface having a coefficient of friction of less than 0.30 is disposed between the plate and the base. | ||||||
| 46 | Pattern forming method, image forming method, fine particle adsorption pattern forming method, conductive pattern forming method, pattern forming material and planographic printing plate | US10828472 | 2004-04-21 | US07306895B2 | 2007-12-11 | Takeyoshi Kano; Koichi Kawamura |
| The invention provides a pattern forming method including providing a polymerization initiation layer which is obtained by fixing, by a cross-linking reaction, a polymer having functional groups having polymerization initiation ability and cross-linking groups at side chains, on a support, and forming a pattern including a preparation zone and a non-preparation zone of a graft polymer by preparing the graft polymer on the surface of the polymerization initiation layer using graft polymerization, by contacting a compound having a polymerizable group on the polymerization initiation layer and supplying energy imagewise; an image forming method which applies the pattern forming method; a pattern forming material; and a planographic printing plate. A fine particle adsorption pattern forming method and a conductive pattern forming method are also provided. | ||||||
| 47 | Exposing systems providing post exposure baking and related methods | US10984524 | 2004-11-09 | US07268853B2 | 2007-09-11 | Sung-Jae Ryu; Sang-Kap Kim; Young-Kyou Park; Yoon-Ho Eo |
| A system for photolithography may include an exposure chamber providing a first isolated environment, an exposure stage in the exposure chamber, a radiation source, an interface chamber providing a second isolated environment, a port, a post exposure bake heater in the interface chamber, and a wafer handler. The exposure stage may be configured to receive a wafer having photoresist thereon to be exposed, and the radiation source may be configured to provide exposing radiation to the wafer being exposed. The port may be configured to allow wafer transport between the first and second isolated environments of the exposure and interface chambers, and the post exposure bake heater may be configured to bake the wafer after exposure. The wafer handler may be configured to move the wafer from the interface chamber through the port into the exposure chamber before exposure, to move the wafer from the exposure chamber through the port to the interface chamber after exposure, and to move the wafer to the post exposure bake heater after moving the wafer from the exposure chamber. Moreover, at least one of a photoresist coating unit and/or a photoresist developing unit may be excluded from the first and second isolated environments of the exposure and interface chambers. Related methods are also discussed. | ||||||
| 48 | Molecular transfer lithography | US09898521 | 2001-07-03 | US07125639B2 | 2006-10-24 | Charles Daniel Schaper |
| A method for the fabrication of patterned devices, in which a latent image is initially formed in a photosensitive material on a carrier, and the exposed material containing the latent image is physically transferred to a substrate before processing. Physical transfer is enhanced by the appropriate selection of coating surface properties and additional coating layers, and by processing steps, such as heating and UV exposure, to promote adhesion to the substrate and detachment from the carrier. | ||||||
| 49 | Photosensitive resin bag for non-pre-sensitized printing plate making | US11195596 | 2005-08-03 | US20060029883A1 | 2006-02-09 | Hilson Huang |
| A photosensitive resin bag used for the non-pre-sensitized printing plate making process comprises a transparent outer bag containing the liquid photosensitive resin. The liquid photosensitive resin is filled into the body of the thin bag with no air bubble. Furthermore, the quantity of the liquid photosensitive resin is limited by the volume of the photosensitive resin bag which is set to form an even and proper thickness photosensitive resin coating as the bag is pressed flat by two transparent clipping glasses. This formed photosensitive resin coating is used as a printing plate for printing after the process is completed. | ||||||
| 50 | Plate-making system of light-sensitive lithographic printing plate and plate-making method | US10419877 | 2003-04-22 | US06935237B2 | 2005-08-30 | Tatsuji Higashi |
| A plate-making system, in which a light-sensitive lithographic printing plate carrying an interleaf paper superimposed thereon and/or an original plate for making a dummy plate carrying an interleaf paper superimposed thereon are processed in a plate-setter provided with an automatic interleaf paper-removing mechanism and an automatic developing machine, is characterized in that it comprises a means for detecting the presence of any interleaf paper on the lithographic printing plate and/or the original plate or a means for discriminating the interleaf paper, the light-sensitive lithographic printing plate and the original plate. A plate-making method of the invention is characterized by irradiating the interleaf paper, the lithographic printing plate and the original plate for making a dummy plate with sensor light rays after they are passed through the automatic interleaf paper-removing mechanism and determining the intensity of the light to thus detect any interleaf paper possibly present on the plates or discriminate the interleaf paper, the light-sensitive lithographic printing plate and the original plate for making a dummy plate from one another. The plate-making method permits the reliable detection of the presence of interleaf papers on light-sensitive lithographic printing plates and/or original plates for dummy plates and the plate-making operations can thus stably be carried out using a plate-setter and an automatic developing machine. | ||||||
| 51 | Packaging method for lithographic printing plate | US10958570 | 2004-10-06 | US20050072122A1 | 2005-04-07 | Takayuki Usui |
| A packaging method for a lithographic printing plate for packaging by a packing paper the lithographic printing plate with only one side surface formed as an image forming surface, comprising the step of: packaging the lithographic printing plate with the packing paper so that an unsealing surface of the packing paper is on an opposite side from the image forming surface. | ||||||
| 52 | Fractionally-releasable bonding layer for use in photo-sensitive laminate films | US10256154 | 2002-09-26 | US20040062896A1 | 2004-04-01 | Terrence F. Picone; Steven C. Schaffer |
| The present invention is directed to a photo-sensitive laminate film for use in making an image mask for etching an image on a substrate. In a first preferred embodiment, the photo-sensitive laminate film comprises a support sheet having a first surface and a second surface, a layer of polymer resin composition having photocrosslinkability, the layer of polymer resin composition having a first surface and a second surface, and a fractionally-releasable bonding layer located between the first surface of the support sheet and the second surface of the layer of polymer resin composition. Upon the creation of an image mask from the layer of polymer resin composition, the image mask is capable of being separated from the first surface of the support sheet such that at least a portion of the bonding layer located between the image mask and the first surface of the support sheet is released from the support sheet with the image mask, and the remaining portion of the bonding layer remains with the support sheet. In use, the image mask, defined by a predetermined pattern, can be operatively attached to a substrate, the support sheet can be removed, and the substrate can be etched (e.g., either by sandblasting or by the application of a chemical etching solution) with an image corresponding inversely to the predetermined pattern of the image mask. | ||||||
| 53 | Packaged radiation sensitive coated workpiece process for making and method of storing same | US10295595 | 2002-11-15 | US20040045866A1 | 2004-03-11 | Marie Angelopoulos; Wu-Song Huang; Ranee Wai-Ling Kwong; David Robert Medeiros; Wayne Martin Moreau; Karen Elizabeth Petrillo; Herman Russell Wendt; Christopher Karl Magg |
| The present invention includes a packaged coated workpiece. The packaged coated workpiece has: (1) a workpiece coated with a resist film sensitive to optical radiation, particulates or chemical contaminants; (2) an inner barrier sealed to enclose the coated workpiece and optionally a first getter agent, to produce a sealed first enclosure; and (3) an outer barrier sealed to enclose the sealed first enclosure and optionally a second getter agent, provided that the packaged coated workpiece has at least one getter agent, to produce a packaged coated workpiece suitable for storage for a period of at least one week without substantial loss of sensitivity, resolution or performance. The present invention also includes a process for preparing a packaged coated workpiece and a method of increasing the storage time of a coated workpiece to at least one week without substantial loss of sensitivity, resolution or performance. | ||||||
| 54 | Ink receptor sheet and it's process of use | US10276081 | 2002-11-15 | US20030227530A1 | 2003-12-11 | Manfred Sondergeld; Volker Struewe |
| The present invention is directed to an ink receptor sheet for ink jet printing, an ink jet printing system comprising such an ink receptor sheet and a transfer element, a process for preparing an image on a permanent support by ink jet printing, and an imaged article made by such a process. By incorporation of a photopolymerizable layer into an ink receptor sheet, the handling latitude during lamination and peeling steps of ink jet printing processes was enhanced and/or more durable and resistant images made by such ink jet printing processes were provided. | ||||||
| 55 | Plate-making system of light-sensitive lithographic printing plate and plate-making method | US10419877 | 2003-04-22 | US20030207185A1 | 2003-11-06 | Tatsuji Higashi |
| A plate-making system, in which a light-sensitive lithographic printing plate carrying an interleaf paper superimposed thereon and/or an original plate for making a dummy plate carrying an interleaf paper superimposed thereon are processed in a plate-setter provided with an automatic interleaf paper-removing mechanism and an automatic developing machine, is characterized in that it comprises a means for detecting the presence of any interleaf paper on the lithographic printing plate and/or the original plate or a means for discriminating the interleaf paper, the light-sensitive lithographic printing plate and the original plate. A plate-making method of the invention is characterized by irradiating the interleaf paper, the lithographic printing plate and the original plate for making a dummy plate with sensor light rays after they are passed through the automatic interleaf paper-removing mechanism and determining the intensity of the light to thus detect any interleaf paper possibly present on the plates or discriminate the interleaf paper, the light-sensitive lithographic printing plate and the original plate for making a dummy plate from one another. The plate-making method permits the reliable detection of the presence of interleaf papers on light-sensitive lithographic printing plates and/or original plates for dummy plates and the plate-making operations can thus stably be carried out using a plate-setter and an automatic developing machine. | ||||||
| 56 | Photopolymer sachet | US09985034 | 2001-11-01 | US20030039915A1 | 2003-02-27 | Paul Mayo Holt; Maria Peneva Dincheva |
| The invention provides a photopolymer package for use in making a hand stamp plate, the package consisting of a sachet containing a photocurable liquid polymer, the walls of the sachet being formed of material capable of being released from the cured photopolymer. Methods for the formation of the package and the hand stamp plate are also provided. The invention eliminates the requirement for the use of a backing layer in the package and thereby offers significant advantages over the prior art in terms of cost and efficiency. | ||||||
| 57 | Exposure apparatus for printing plates | US09781272 | 2001-02-13 | US06520692B2 | 2003-02-18 | Takashi Koizumi; Yoshinori Kawamura; Yoshihiro Koyanagi; Kazuhisa Okamoto |
| In an automatic exposure apparatus for printing plates, a photopolymer plate is taken out of an accommodating cassette in which stacked photopolymer plates are accommodated, and an image is recorded onto the photopolymer plate. A shutter which opens and closes an opening of the accommodating cassette is configured as a thin plate, and thus, the accommodating cassette is thin and light. | ||||||
| 58 | Exposure apparatus for printing plates | US09781272 | 2001-02-13 | US20010013928A1 | 2001-08-16 | Takashi Koizumi; Yoshinori Kawamura; Yoshihiro Koyanagi; Kazuhisa Okamoto |
| In an automatic exposure apparatus for printing plates, a photopolymer plate is taken out of an accommodating cassette in which stacked photopolymer plates are accommodated, and an image is recorded onto the photopolymer plate. A shutter which opens and closes an opening of the accommodating cassette is configured as a thin plate, and thus, the accommodating cassette is thin and light. | ||||||
| 59 | Photosensitive coating composition and the use thereof for protective purposes | US573098 | 1984-01-23 | US4544623A | 1985-10-01 | Thaddeus Audykowski; Anton Mentha; Ewald Losert |
| Uniform protective coatings, particularly solder resist masks, on printed circuit boards can be produced with coating compositions having a viscosity of 200 to 700 m Pas at 25.degree. C. and comprising a solution of a photosensitive, thermally curable, lacquer-forming substance, wherein there is additionally uniformly dispersed 5 to 50% by weight of a finely divided filler. | ||||||
| 60 | Method for manufacture of laminates which are useful as packaging materials | US821116 | 1977-08-02 | US4119743A | 1978-10-10 | Chen-i Lu |
| Heat-sealable laminates useful as packaging materials, for example, for the packaging of photographic processing chemicals, are comprised of a layer of metal foil, an outer heat-sealable layer of a radiation-cured and heat-fused polymeric composition, and a radiation-cured chemically-resistant polymeric interlayer between the foil and the outer layer. The laminates are manufactured by coating a metal foil with a radiation-curable composition that is capable of forming a chemically-resistant layer upon radiation curing, irradiating the coating to cure it, overcoating with a radiation-curable composition such as a vinyl plastisol that is capable of forming a heat-sealable layer upon radiation curing, irradiating the overcoat to cure it, and heating the laminate to fuse the overcoat layer. | ||||||
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