子分类:
| 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 | CONDUCTIVE ORGANIC-INORGANIC HYBRID MATERIAL COMPRISING A MESOPOROUS PHASE, MEMBRANE, ELECTRODE AND FUEL CELL | PCT/FR2004050026 | 2004-01-22 | WO2004067640A3 | 2004-09-10 | VALLE KARINE; BELLEVILLE PHILIPPE; SANCHEZ CLEMENT |
| The invention relates to a conductive organic-inorganic hybrid material comprising a mineral phase in which walls define pores forming a structured mesoporous network with open porosity. The inventive material also comprises an oligomer or an organic polymer which is incorporated into the aforementioned walls and which is covalently linked to the mineral phase and, optionally, another phase inside the pores, comprising at least one surface active agent, whereby at least the mineral phase or the oligomer or the organic polymer have conductive functions. The invention also relates to a membrane and electrode comprising said material. The invention further relates to a fuel cell comprising at least one such membrane and/or at least one such electrode and to a method of preparing said material. | ||||||
| 102 | シリコーン自己接着剤、シリコーン自己接着剤の製造方法、シリコーン自己接着剤を用いた複合体、および、シリコーン自己接着剤の使用方法 | JP2010540126 | 2008-12-23 | JP5687064B2 | 2015-03-18 | ジャン−マルク・フランシス; ショーン・ダフィー |
| 103 | Method of applying a coating to a silicone hydrogel lens | JP2009535407 | 2007-10-29 | JP5350258B2 | 2013-11-27 | プルーイット,ジョン・ダラス; ウィンタートン,リン・クック; クマール,サイ・ラママーシー; スミス,ダウン・エイ |
| The invention provides a cost-effective and in-situ method for applying an LbL coating onto a silicone hydrogel contact lens directly in a lens package. The resultant silicone hydrogel contact lens has a coating with good hydrophilicity, intactness and durability and also can be used directly from the lens package by a patient without washing and/or rising. In addition, the invention provides a packaging solution for in-situ coating of a silicone hydrogel contact lens in a lens package and an ophthalmic lens product. | ||||||
| 104 | 樹脂粒子及びその製造方法 | JP2011538771 | 2011-05-27 | JPWO2011152008A1 | 2013-07-25 | 英郎 原田; 謙太 能勢; 将 本夛; 岩脇 英次; 英次 岩脇; 貴博 田中 |
| 液状又は超臨界状態の流体を使用して得られる、粒度分布が十分狭く、かつ低温溶融性に優れた樹脂粒子を提供する。本発明は、樹脂(a)を含有する微粒子(A)が、樹脂(b)を含有する樹脂粒子(B)の表面に固着され又は皮膜化されてなる樹脂粒子(C)であり、微粒子(A)のガラス転移温度又は融点未満の温度における、液状又は超臨界状態の二酸化炭素(X)による微粒子(A)の膨潤度が16%以下であって、樹脂(a)が構成単位として、溶解度パラメーター〔SP値:(cal/cm3)1/2〕が7〜9である非結晶性非ハロゲンビニルモノマー(m1)を0.1〜50重量%含有する樹脂粒子(C)である。 | ||||||
| 105 | Curable liquid composite light-emitting diode encapsulant | JP2012173344 | 2012-08-03 | JP2013040334A | 2013-02-28 | ZHOU WEIJUN; GU BINGHE; LYONS JOHN; BULICK ALLEN S; KHANARIAN GARO; POPA PAUL J; ELL JOHN R |
| PROBLEM TO BE SOLVED: To provide curable compositions for a light-emitting diode encapsulant with high refractive indices, excellent heat stability, and transparency.SOLUTION: A curable liquid polysiloxane/TiOcomposite for use as the light-emitting diode encapsulant is provided, comprising: a polysiloxane with TiOdomains having an average domain size of less than 5 nm, wherein the curable liquid polysiloxane/TiOcomposite contains 20 to 60 mol% TiO(based on total solids); wherein the curable liquid polysiloxane/TiOcomposite exhibits a refractive index of >1.61 to 1.7 and wherein the curable liquid polysiloxane/TiOcomposite is a liquid at room temperature and atmospheric pressure. Also a light-emitting diode manufacturing assembly is provided. | ||||||
| 106 | Method of manufacturing polyester | JP2007506856 | 2005-03-31 | JP5003958B2 | 2012-08-22 | ウー・ヘンペン; クシャン・ツォン; ゴンザレス・エレゾル・ビー; シャン・ジャンウイ; ディン−リー・シュージ・スー; ナイザー・マーク・オー |
| 107 | Foamable rubber composition | JP2011221832 | 2011-10-06 | JP2012082420A | 2012-04-26 | MEIJERS PETER WILBERT LEONIE JEANETTE |
| PROBLEM TO BE SOLVED: To provide a foamable rubber composition.SOLUTION: The composition is an elastomer composition including an elastic polymer containing units originated from ethylene and α-olefin, a curing package and a foaming agent, wherein the foaming agent contains a compound including crystallization water. The method for producing a foamed article comprises: a step of preparing an elastomer composition; a step of molding the elastomer composition; a step of foaming the molded product; and a step of curing the foamed product. There is provided also a foamed article. | ||||||
| 108 | Irregular-shaped hollow microparticle | JP2010088277 | 2010-04-07 | JP2011001537A | 2011-01-06 | SHINTANI SATOSHI; ISHIKAWA FUMIYOSHI; SAITO CHIAKI |
| PROBLEM TO BE SOLVED: To provide an irregular-shaped hollow microparticle, which can sufficiently meet high-level requirements in these days, for example, improvement in optical characteristics, such as total light transmittance and light diffusing properties, in molded resin articles, and improvement in texture in using, soft-focus effect, persistence and so on in cosmetics; a method for producing the same; and use of the same.SOLUTION: The irregular-shaped hollow microparticle having a spindle shape as a whole is provided, wherein a plurality of recesses (21) are formed on the surface (11), the interior (31) is equipped with one hollow part (41), and the surface (11) is connected to the hollow part (41) via a cleavage (51) that is elongated along the direction of the major diameter (L). The average of the major diameter (L) is 0.1-30 μm and the ratio of the average of the minor diameter (L) to the average of the major diameter (L) is 0.3-0.8. | ||||||
| 109 | Silicone urisheath with integrated adhesive | JP2010141713 | 2010-06-22 | JP2010227614A | 2010-10-14 | NIELSEN HENRIK LINDENSKOV |
| <P>PROBLEM TO BE SOLVED: To provide a silicone made external urinary catheter or urisheath. <P>SOLUTION: The external urinary catheter made of silicone includes at least one inner circumferential band by oxidized silicone and an outer circumferential band by unoxidized silicone. The outer circumferential band at least covers the inner circumferential band, and an adhesive is contained in the inner circumferential band. The silicone made urisheath includes a pressure sensitive skin adhesive combined with a part to a first side of the urisheath after selective oxidation processing of a part to the first side of the urisheath. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 110 | Method of applying a coating to a silicone hydrogel lens | JP2009535407 | 2007-10-29 | JP2010508563A | 2010-03-18 | ウィンタートン,リン・クック; クマール,サイ・ラママーシー; スミス,ダウン・エイ; プルーイット,ジョン・ダラス |
| The invention provides a cost-effective and in-situ method for applying an LbL coating onto a silicone hydrogel contact lens directly in a lens package. The resultant silicone hydrogel contact lens has a coating with good hydrophilicity, intactness and durability and also can be used directly from the lens package by a patient without washing and/or rising. In addition, the invention provides a packaging solution for in-situ coating of a silicone hydrogel contact lens in a lens package and an ophthalmic lens product. | ||||||
| 111 | Silicone Uri sheath adhesive has been integrated | JP2007529365 | 2005-09-05 | JP2008512222A | 2008-04-24 | リンデンスコフ ニールセン,ヘンリク |
| 酸化法を使用してシリコーンへの接着剤の塗布を可能にする。 この方法は、制御され、シリコーン構造への選択的酸化処理を可能にし、管状構造の内側への処理を可能にする。 | ||||||
| 112 | Conductive organic containing mesoporous phase - inorganic hybrid materials, membranes, electrodes and fuel cell | JP2006502168 | 2004-01-22 | JP2006518405A | 2006-08-10 | ヴァレ,カリン; サンチェス,クレメント; ベルヴィル,フィリップ |
| 【課題】優れた性能を示しながら、導電性官能基を備えている場合、燃料電池のような電気化学的装置において使用することができる、メソポーラス材料を提供すること。
【解決手段】 無機相(その中の壁面が開放細孔性の構造化メソポーラスネットワークを形成している細孔を規定する)を含む導電性有機−無機ハイブリッド材料; 前記壁面に組み入れられ、無機相と共有結合的に結合した有機のオリゴマーまたはポリマー、および任意に、少なくとも1種の界面活性剤から成る、細孔の内部にある他の相を更に含む、前記材料; 無機相、導電性および/または親水性官能基を持つオリゴマーおよび有機ポリマーの少なくとも1種。 この材料を含む膜および電極。 少なくともそのような膜および/または少なくともそのような電極を含む燃料電池。 前記材料を調製する方法。 |
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| 113 | Compositions of the barrier coating comprises a method and said barrier coating is deposited on a polymer substrate | JP2003508492 | 2002-02-19 | JP2004535494A | 2004-11-25 | ウエスト,ゲイリー・エイ; ウェルチ,ロナルド・エフ,ジュニア; サッコマンノ,ロバート・ジェイ |
| 本発明は、基体の化学的耐性を改善するためにパリレンポリマーバリヤーコーティングを高分子基体に付着させる方法に関する。 本方法は、基体の表面部分を十分に処理して汚れを除去する工程、パリレンポリマーの少なくとも1つの層を汚れのない表面部分に化学蒸着により付着させる工程、そしてパリレンポリマーの少なくとも1つの層それぞれを十分な時間アニ−ルする工程を含む。 本発明はまた、高分子基体表面に結合したパリレンポリマーの少なくとも1つの層を含む高分子基体上バリヤーコーティングのための組成物に関する。 基体はシリコーンゴムキーパッドでもよい。 | ||||||
| 114 | Proton conductive thin film and its manufacturing method | JP2002176490 | 2002-06-17 | JP2004030928A | 2004-01-29 | NOGAMI MASAYUKI; RI KAIHIN |
| PROBLEM TO BE SOLVED: To provide a proton conductive thin film suitable for an electrolyte of a small fuel cell. SOLUTION: This proton conductive thin film contains silicon at least and has a plurality of pores regularly oriented three-dimensionally. The pore size is smaller than 5 nm, and a film thickness ranges from 100 to 1000 nm. The proton conductive thin film is produced by preparing a thin film formation solution containing silicon at least, adding a surfactant to the solution, applying the solution into film form on a base board, and heating the film at 300-800°C for removing the surfactant and performing glass transition. COPYRIGHT: (C)2004,JPO | ||||||
| 115 | JPS5821651B2 - | JP13055974 | 1974-11-14 | JPS5821651B2 | 1983-05-02 | EDOWAADO DABURYUU MERIRU |
| 116 | JPS5235698B1 - | JP58171 | 1971-01-12 | JPS5235698B1 | 1977-09-10 | |
| 117 | JPS5061486A - | JP3436974 | 1974-03-27 | JPS5061486A | 1975-05-27 | |
| A composition curable upon exposure to ultraviolet light is disclosed which consists essentially of a vinyl-containing siloxane and siloxane-containing, silicon-bonded hydrogen atoms. A mercaptofunctional silicone can be employed in the composition as a cure accelerator. Another composition curable upon exposure to ultraviolet light which is disclosed consists essentially of a mercaptofunctional siloxane and a vinyl-containing siloxane. | ||||||
| 118 | SILICONES-AUTOADHESIFS, PROCEDE DE FABRICATION, COMPLEXES LES UTILISANT ET APPLICATIONS | EP08867106.0 | 2008-12-23 | EP2225314B1 | 2018-08-15 | FRANCES, Jean-Marc; DUFFY, Sean |
| 119 | ARTICLE COMPRENANT UN SUBSTRAT POLYMERIQUE ET UNE COUCHE DE POLYMERE DE SILICONE | EP14710042.4 | 2014-02-27 | EP2961600B1 | 2017-09-06 | PERNOT, Jean-Marc |
| 120 | RESIN PARTICLE AND METHOD FOR PRODUCING SAME | EP11789422.0 | 2011-05-27 | EP2578619B1 | 2016-11-30 | HARADA, Hideo; NOSE, Kenta; HONDA, Masaru; IWAWAKI, Eiji; TANAKA, Takahiro |
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