| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Nitrogen-containing polymers for metal surface treatment | JP2006504676 | 2004-03-12 | JP4357527B2 | 2009-11-04 | ヴィテラー,ヘルムート; クリペル,フランク; クリュークライン,マティアス; ディーチェ,フランク |
| 102 | Use of the copolymers as adhesion promoters in paints | JP2009508216 | 2007-05-04 | JP2009536230A | 2009-10-08 | カールハインツ ハウベンエステル; アルバート フランク; ステファン メスマー; トーマス ラウナーク |
| 本発明は、その他のモノマーと共に、複素環式塩基性基を含むモノマーが10%〜90重量%共重合されていて、かつビニルピロリドンをモノマー成分として含まないコポリマーの、基材に対する固相ペイント膜の接着性を改良するためのペイント用添加剤としての使用に関する。
本発明はさらに、その他のモノマーと共に、複素環式塩基性基を含むモノマーが10%〜90重量%共重合されていて、かつビニルピロリドンをモノマー成分として含まないコポリマーを、基材に対する固相ペイント膜の接着性を改良するための添加剤として含む、硬化および未硬化ポリマー組成物に関する。 |
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| 103 | Super-hydrophilic coating | JP2008540148 | 2006-11-07 | JP2009515032A | 2009-04-09 | シー. セベシ フェブジ; エフ. ルブネル ミチャエル; ズハイ レイ; イー. コヘン ロベルト |
| 超親水性コーティングは、防反射性及び防曇性を有することができる。 該コーティングは、長期間にわたって防反射性及び防曇性を維持することができる。
【選択図】 図1 |
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| 104 | Lithographic printing plate having a photo-reactive polymer binder | JP51330895 | 1994-10-27 | JP3426239B2 | 2003-07-14 | アール. カーニィ,フレデリック; シー. シュワーツェル,ウィリアム; ジェイ. フィッツジェラルド,モーリス; − チャング リアング,ロング |
| A photoreactive binder that may be used to enhance photospeed in either conventional plates or on-press developable lithographic printing plates. Briefly, a polymer of m-isopropenyl- alpha , alpha -dimethylbenzyl isocyanate is derivatized for vinyl group reactivity by reacting the isocyanate groups thereof with hydroxyalkyl acrylate. The resulting photopolymeric binder provides significantly higher photospeed than the non-reactive binder currently utilized in the production of conventional printing plates. The resulting lithographic printing plate also shows better durability (as manifested by longer run-length) and is more easily developed by the microencapsulated developers utilized in the present invention. As to the preparation of the photoreactive binders, the application discloses a method of copolymerizing m-isopropenyl- alpha , alpha - dimethylbenzyl isocyanate (m-TMI) through complexation with an electron-deficient monomer such as maleic anhdride to accelerate free radical copolymerization with other monomers, and thus, provides greater monomer-to-polymer conversion. Use of the resulting product in the photoresist of a lithographic printing plate improves its adhesion to an underlying substrate. | ||||||
| 105 | Lithographic printing plate having a photo-reactive polymer binder | JP51330895 | 1994-10-27 | JPH08507163A | 1996-07-30 | アール. カーニィ,フレデリック; シー. シュワーツェル,ウィリアム; ジェイ. フィッツジェラルド,モーリス; − チャング リアング,ロング |
| A photoreactive binder that may be used to enhance photospeed in either conventional plates or on-press developable lithographic printing plates. Briefly, a polymer of m-isopropenyl- alpha , alpha -dimethylbenzyl isocyanate is derivatized for vinyl group reactivity by reacting the isocyanate groups thereof with hydroxyalkyl acrylate. The resulting photopolymeric binder provides significantly higher photospeed than the non-reactive binder currently utilized in the production of conventional printing plates. The resulting lithographic printing plate also shows better durability (as manifested by longer run-length) and is more easily developed by the microencapsulated developers utilized in the present invention. As to the preparation of the photoreactive binders, the application discloses a method of copolymerizing m-isopropenyl- alpha , alpha - dimethylbenzyl isocyanate (m-TMI) through complexation with an electron-deficient monomer such as maleic anhdride to accelerate free radical copolymerization with other monomers, and thus, provides greater monomer-to-polymer conversion. Use of the resulting product in the photoresist of a lithographic printing plate improves its adhesion to an underlying substrate. | ||||||
| 106 | Copolymer of vinyl urethane | JP14702484 | 1984-07-17 | JPS6044513A | 1985-03-09 | BORUFUUDEIITAA SHIYUREAA; KURAUSU SHIYUSUTAA; HERUBERUTO BARUTORU; YURUGEN HASUDENTOIFUERU |
| 107 | POLYMER-BASED ANTIMICROBIAL COMPOSITIONS AND METHODS OF USE THEREOF | US15662119 | 2017-07-27 | US20180028431A1 | 2018-02-01 | Marion L. Chiattello; Mark Oman |
| Provided is a polymer-based antimicrobial composition that is non-toxic, water soluble, and that mitigates the transmission of infectious diseases from surfaces. The composition comprises a cationic polymer, at least one adhesion promoter, optionally organic and/or inorganic particles that are photocatalytically active in visible light, and a carrier, in which the components of the composition are not covalently bound to one another. Also provided is an antimicrobial composition that comprises at least (i) a polyethylenimine-based polymer and a carrier or (ii) an organic and/or inorganic particle that is photocatalytically active in visible light, an adhesion promoter, and a carrier. The antimicrobial compositions can be applied to disinfect a surface and to form residual self-sanitizing films on the surface that are removable. | ||||||
| 108 | EXFOLIATION LAYER AND FABRICATION METHOD THEREFOR | US15532690 | 2015-12-02 | US20170345850A1 | 2017-11-30 | Dong Heon LEE; Jeong Seok KIM |
| This invention relates to an exfoliation layer composed of a cationic polymer electrolyte or organosilane and negatively charged phyllosilicate sheet-shaped nanoparticles, and to a method of manufacturing the exfoliation layer, including a) negatively charging the surface of a substrate, b) applying a cationic polymer electrolyte or performing a silanization process, and c) negatively charging and applying phyllosilicate. Since the exfoliation layer of the invention has an effect of reducing bonding force due to the sheet-shaped nanoparticles therein, the exfoliation layer enables a flexible display to be temporarily fixed on a supporting substrate upon fabrication of the flexible display and to then be easily separated after the completion of the fabrication thereof. | ||||||
| 109 | PRECURSOR POLYELECTROLYTE COMPLEXES COMPOSITIONS | US15433775 | 2017-02-15 | US20170158990A1 | 2017-06-08 | David R. Scheuing; THOMAS F. FAHLEN; JARED HEYMANN; MIKE KINSINGER; WILLIAM OUELLETTE; WILLIAM L. SMITH |
| The invention relates to compositions and methods of treatment employing compositions comprising polyelectrolyte complexes. The compositions include a water-soluble first polyelectrolyte bearing a net cationic charge or capable of developing a net cationic charge and a water-soluble second polyelectrolyte bearing a net anionic charge or capable of developing a net anionic charge. The total polyelectrolyte concentration of the first solution is at least 110 millimolar. The composition is free of coacervates, precipitates, latex particles, synthetic block copolymers, silicone copolymers, cross-linked poly(acrylic) and cross-linked water-soluble polyelectrolyte. The composition may be a concentrate, to be diluted prior to use to treat a surface. | ||||||
| 110 | PRECURSOR POLYELECTROLYTE COMPLEXES COMPOSITIONS | US15074979 | 2016-03-18 | US20160199828A1 | 2016-07-14 | DAVID R. SCHEUING; THOMAS F. FAHLEN; JARED HEYMANN; MIKE KINSINGER; WILLIAM OUELLETTE; WILLIAM L. SMITH |
| The invention relates to compositions and methods of treatment employing compositions comprising polyelectrolyte complexes. The compositions include a water-soluble first polyelectrolyte bearing a net cationic charge or capable of developing a net cationic charge and a water-soluble second polyelectrolyte bearing a net anionic charge or capable of developing a net anionic charge. The total polyelectrolyte concentration of the first solution is at least 110 millimolar. The composition is free of coacervates, precipitates, latex particles, synthetic block copolymers, silicone copolymers, cross-linked poly(acrylic) and cross-linked water-soluble polyelectrolyte. The composition may be a concentrate, to be diluted prior to use to treat a surface. | ||||||
| 111 | PHOTO-ACTIVATED HYDROPHILIC COATINGS AND METHODS FOR THEIR PREPARATION AND USE | US14906540 | 2013-07-23 | US20160160072A1 | 2016-06-09 | Buker NICOLAS |
| Disclosed herein are coating compositions and methods of making and using the same. The coating composition includes a first polymer having at least one positively charged group; a second polymer having at least one negatively charged group; and at least one protecting group contacting the positively charged group of the first polymer, the negatively charged group of the second polymer, or both. The protecting group is configured to be removed by photocleavage to form a salt bridge between the positively and negatively charged groups. The coating composition may be hydrophilic when the salt bridge is formed. | ||||||
| 112 | Precursor polyelectrolyte complexes compositions comprising oxidants | US13772674 | 2013-02-21 | US09309435B2 | 2016-04-12 | David R. Scheuing; Thomas F. Fahlen; Jared Heymann; Mike Kinsinger; William Ouellette; William L. Smith |
| The invention relates to compositions and methods of treatment employing compositions comprising polyelectrolyte complexes. The compositions include a water-soluble first polyelectrolyte bearing a net cationic charge or capable of developing a net cationic charge and a water-soluble second polyelectrolyte bearing a net anionic charge or capable of developing a net anionic charge. The total polyelectrolyte concentration of the first solution is at least 110 millimolar. The composition is free of coacervates, precipitates, latex particles, synthetic block copolymers, silicone copolymers, cross-linked poly(acrylic) and cross-linked water-soluble polyelectrolyte. The composition may be a concentrate, to be diluted prior to use to treat a surface. | ||||||
| 113 | METHODS OF LAYER BY LAYER SELF-ASSEMBLY OF POLYELECTROLYTE COMPRISING LIGHT ABSORBING OR STABILIZING COMPOUND AND ARTICLES | US14782125 | 2014-04-14 | US20160068703A1 | 2016-03-10 | Daniel J. Schmidt; Richard S. Buckanin; Timothy J. Hebrink; James R. Miller |
| Methods of protecting a substrate from light-induced degradation are described. The methods comprise providing a substrate and disposing onto the substrate a plurality of layers deposited by layer-by-layer self-assembly. At least a portion of the layers comprise an organic light absorbing compound, an organic light stabilizing compound, or a combination thereof dispersed within a polyelectrolyte. Also described are articles comprising a substrate and a plurality of layers deposited by layer-by-layer self-assembly wherein at least a portion of the layers comprise an organic light absorbing compound, an organic light stabilizing compound, or a combination thereof dispersed within a polyelectrolyte. Random copolymers suitable for use in the method and articles are also described. | ||||||
| 114 | POLYMER FUNCTIONAL FILM AND METHOD FOR PRODUCING SAME | US14851118 | 2015-09-11 | US20160001238A1 | 2016-01-07 | Ryoko AGUI; Masataka SATO; Keisuke KODAMA; Kazuomi INOUE |
| The present invention provides a polymer functional film obtained by polymerizing and curing a composition including (A) a styrene-based monomer represented by Formula (HSM); (B) a crosslinking agent represented by Formula (CL); and (C) a polymerization initiator represented by Formula (PI-1) or (PI-2), and a method for producing the same: in which R1 represents a halogen atom or —N+(R2)(R3)(R4)(X1−); n1 represents an integer from 1 to 10; here, R2 to R4 each independently represent a particular substituent; X1− represents an organic or inorganic anion;L1 represents an alkylene group or an alkenylene group; Ra, Rb, Rc and Rd each independently represent a particular substituent; n2 and n4 each independently represent an integer from 1 to 10; X2− and X3− each independently represent an organic or inorganic anion; andR5 to R10 each represent a hydrogen atom or a particular substituent. | ||||||
| 115 | SILVER-CONTAINING COMPOSITION | US14410612 | 2013-06-26 | US20150335012A1 | 2015-11-26 | Huan Chen; Tirthankar Ghosh; Christine Lihong Lao |
| A silver-containing composition is provided. The composition comprises (a) silver ion, (b) a polymer that has pendant unsaturated or aromatic heterocycles, and (c) solid particles having median diameter of 2 mm or smaller, wherein some or all of said particles have a coating comprising said silver ion and said polymer (b). | ||||||
| 116 | Compositions and articles comprising polymerizable ionic liquid mixture, and methods of curing | US14331499 | 2014-07-15 | US09127101B2 | 2015-09-08 | Yizhong Wang; Joel D. Oxman; Larry R. Krepski; Peiwang Zhu; Kevin M. Lewandowski; Brian N. Holmes; Richard L. Severance; Joseph D. Rule; Thomas P. Klun |
| Presently described are curable compositions comprising a mixture of at least one (e.g. free-radically) polymerizable ionic liquid and at least one other ethylenically unsaturated monomer, oligomer, or polymer. The polymerizable ionic liquid is characterized as having an air to nitrogen curing exotherm ratio of at least 0.70. Also described are articles and methods of making articles from such curable compositions. A monofunctional polymerizable ionic liquid is also described comprising a non-polymerizable substituted imidazolium cationic group and a polymerizable sulfonate anion. | ||||||
| 117 | ANTI-BACTERIAL AND ANTI-FOULING COATING COMPOSITION, FILM USING THE SAME, METHOD OF PRODUCING THE SAME AND PRODUCT HAVING THE FILM | US14586440 | 2014-12-30 | US20150191608A1 | 2015-07-09 | Byung Ha PARK; Yong Seok CHOI; Soo-Jin PARK; Jong Chan LEE; Yong Suk CHO |
| A single coating composition providing both anti-bacterial and anti-fouling functions when applied to a product and a method of preparing same. The composition includes a fluorine-based substituent according to the following Formula 1 and at least one ammonium-based substituent according to the following Formula 2: CF2OCF2CF2OpCF2Oq [Formula 1] wherein p and q each independently is an integer of 1 to 100, CH2—C(CH3)(COOCH2CH2+N(CH3)2(CH2CH2)xCH3) [Formula 2] wherein x is an integer of 1 to 20. | ||||||
| 118 | Precursor polyelectrolyte complexes compositions | US14227363 | 2014-03-27 | US08993505B2 | 2015-03-31 | David R. Scheuing; Thomas F. Fahlen; Jared Heymann; Mike Kinsinger; William Ouellette; William L. Smith |
| The invention relates to compositions and methods of treatment employing compositions comprising polyelectrolyte complexes. The compositions include a water-soluble first polyelectrolyte bearing a net cationic charge or capable of developing a net cationic charge and a water-soluble second polyelectrolyte bearing a net anionic charge or capable of developing a net anionic charge. The total polyelectrolyte concentration of the first solution is at least 110 millimolar. The composition is free of coacervates, precipitates, latex particles, synthetic block copolymers, silicone copolymers, cross-linked poly(acrylic) and cross-linked water-soluble polyelectrolyte. The composition may be a concentrate, to be diluted prior to use to treat a surface. | ||||||
| 119 | MULTI-LAYERED FILM AND PHOTOVOLTAIC MODULE INCLUDING THE SAME | US14494066 | 2014-09-23 | US20150013765A1 | 2015-01-15 | Hyun Cheol KIM; Yoon Kyung KWON |
| A multi-layered film, a backsheet for photovoltaic modules, a method of manufacturing the same, and a photovoltaic module are provided. The multi-layered film can be configured so that a resin layer including a fluorine-based polymer and an oxazoline group-containing polymer is formed on a substrate. As a result, the resin layer including the fluorine-based polymer can have excellent durability and weather resistance, and show high interfacial adhesive strength to the substrate. During the preparation of the multi-layered film, a drying process can also be performed at a relatively low temperature, so that the manufacturing costs can be reduced and the quality of the product can be prevented from being deteriorated by thermal deformation or thermal shock. The multi-layered film may be effectively used as the backsheet in a variety of photovoltaic modules. | ||||||
| 120 | COMPOSITIONS AND ARTICLES COMPRISING POLYMERIZABLE IONIC LIQUID MIXTURE, AND METHODS OF CURING | US14331499 | 2014-07-15 | US20140322550A1 | 2014-10-30 | YIZHONG WANG; JOEL D. OXMAN; LARRY R. KREPSKI; PEIWANG ZHU; KEVIN M. LEWANDOWSKI; BRIAN M. HOLMES; RICHARD L. SEVERANCE; JOSEPH D. RULE; THOMAS P. KLUN |
| Presently described are curable compositions comprising a mixture of at least one (e.g. free-radically) polymerizable ionic liquid and at least one other ethylenically unsaturated monomer, oligomer, or polymer. The polymerizable ionic liquid is characterized as having an air to nitrogen curing exotherm ratio of at least 0.70. Also described are articles and methods of making articles from such curable compositions. A monofunctional polymerizable ionic liquid is also described comprising a non-polymerizable substituted imidazolium cationic group and a polymerizable sulfonate anion. | ||||||
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