| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 241 | 디이소시아네이트 말단 매크로머 및 이의 제조방법 | KR1020087017338 | 2007-01-17 | KR1020080092375A | 2008-10-15 | 핏츠벤저민디.; 유스투스미카엘; 웨스터곰크리스토퍼엠. |
| A novel macromer or mixture thereof is described herein, comprising benzoyl isocyanate terminal moieties and at least two residues of a water-soluble polymer having a molecular weight ranging from 80 to 10,000 adjacent to the carbonyl group of the benzoyl isocyanate moieties, thereby forming at least two ester linkages in the macromer or mixture thereof. A method for making a diisocyanate macromer is also described herein. | ||||||
| 242 | 효소 또는 미생물 균체 고정화용 입상 성형물의 제조 방법 | KR1020020070560 | 2002-11-14 | KR1020030040154A | 2003-05-22 | 요시따께,준야; 미야가와,겐지; 세꼬,겐지 |
| PURPOSE: To provide a method for producing a granular formed product of improved mechanical strength for immobilizing an enzyme or microbial cells. CONSTITUTION: This method for producing the granular formed product comprises the following process: a water-based liquid composition including (A) an unsaturated group-containing urethane resin obtained by reaction of (a) a compound containing in one molecule one hydroxy group and one epoxy group with (b) a compound containing in one molecule one carboxy group and one ethylenically unsaturated group to form (c) an unsaturated group- containing diol which is then reacted with (d) a polyisocyanate compound, (B) a polymerization initiator and (C) a water-soluble high-molecular polysaccharide having the ability to gel on contact with metal ions is gelatinized to a granular form in an aqueous medium containing the metal ions, and the resultant granular gel is then put to photopolymerization and/or thermal polymerization to react the ethylenically unsaturated groups in the granular gel. | ||||||
| 243 | 자체-점착성 시트상 구조물 및 이의 제조방법 | KR1019840007159 | 1984-11-15 | KR1019850003560A | 1985-06-20 | 미클로스폰비테라; 디트마르쉐펠; 울리히폰지지키; 롤랜드루프 |
| 내용없음 | ||||||
| 244 | 겔 폴리머 전해질 및 이를 포함하는 리튬 이차전지 | KR1020150138643 | 2015-10-01 | KR101797295B1 | 2017-11-13 | 박솔지; 안경호; 오정우; 이철행; 정이진 |
| 본발명은전해액용매, 리튬염, 중합개시제및 제1 화합물과제2 화합물의혼합화합물을포함하는겔 폴리머전해질용조성물및 양극, 음극, 분리막, 및겔 폴리머전해질을포함하는리튬이차전지로서, 상기겔 폴리머전해질은상기겔 폴리머전해질용조성물을중합시켜형성된리튬이차전지를제공한다. 본발명의겔 폴리머전해질용조성물은, 제1 화합물은작용기로서폴리에틸렌글리콜을포함하는아민계화합물, 및제2 화합물은에폭시계화합물인제1 화합물과제2 화합물의혼합화합물을포함함으로써, 리튬이차전지에적용할경우, 호핑현상을용이하게유도함으로써, 전지의수명을향상시킬수 있을뿐만아니라, 우수한고온저장성을발휘하며, 전지의용량특성을향상시킬수 있다. | ||||||
| 245 | 생분해성 중합체 조성물 | KR1020177016500 | 2015-12-16 | KR1020170086582A | 2017-07-26 | 프레드릭슨,제럴드; 시니시,마이클,데이비드 |
| 본개시내용은 (a) 폴리올및 폴리카르복실레이트중 적어도하나는 3 개이상의관능기를가지는, 폴리올및 폴리카르복실레이트를포함하는반응성종 사이의반응에의하여형성된생분해성폴리에스테르네트워크, 및 (b) 생분해성열가소성중합체를포함하는조성물에관련한것이다. 본개시내용은추가적으로그러한조성물을사용하는방법및 그러한조성물을포함하는의료장치에관련한것이다. | ||||||
| 246 | 겔 폴리머 전해질 및 이를 포함하는 리튬 이차전지 | KR1020150138643 | 2015-10-01 | KR1020160040113A | 2016-04-12 | 박솔지; 안경호; 오정우; 이철행; 정이진 |
| 본발명은전해액용매, 리튬염, 중합개시제및 제1 화합물과제2 화합물의혼합화합물을포함하는겔 폴리머전해질용조성물및 양극, 음극, 분리막, 및겔 폴리머전해질을포함하는리튬이차전지로서, 상기겔 폴리머전해질은상기겔 폴리머전해질용조성물을중합시켜형성된리튬이차전지를제공한다. 본발명의겔 폴리머전해질용조성물은, 제1 화합물은작용기로서폴리에틸렌글리콜을포함하는아민계화합물, 및제2 화합물은에폭시계화합물인제1 화합물과제2 화합물의혼합화합물을포함함으로써, 리튬이차전지에적용할경우, 호핑현상을용이하게유도함으로써, 전지의수명을향상시킬수 있을뿐만아니라, 우수한고온저장성을발휘하며, 전지의용량특성을향상시킬수 있다. | ||||||
| 247 | 개선된 유화 및 현탁 중합 방법 및 이로부터 유래된 탄소의 개선된 전기화학성능 | KR1020157028756 | 2014-03-13 | KR1020160011178A | 2016-01-29 | 크론벤자민이.; 제라미타캐서린; 코스탄티노헨리알.; 루드빅조셉프랭크; 동싱; 쿠레시샤히드피.; 크나젝제랄드 |
| 본출원은겔 형태의폴리머입자의제조방법및 이로부터제조된탄소재료에관한것이다. 상기탄소재료는향상된전기화학적특성을포함하고, 수많은전기장치, 예를들어, 울트라커패시터또는전지내의전극재료로서유용성을발견한다. 본명세서에기술된방법은또한일반적으로상기폴리머및 2차상 사이의산성및 염기성종의개선된제어에의해유화및/또는현탁중합방법을개선하기위해이용될수 있다. | ||||||
| 248 | 겔 밀봉 부식 방지 테이프 | KR1020157024785 | 2014-03-05 | KR1020150126854A | 2015-11-13 | 팔테이섹스티븐엘 |
| 폴리아이소시아네이트, 폴리올및 단일-하이드록시점착부여제의반응생성물인변형가능한점착성폴리우레탄중합체; 및하나이상의비크롬화된부식억제제를포함하는조성물이제공된다. 추가적으로, 폴리아이소시아네이트, 폴리올및 단일-하이드록시점착부여제의반응생성물인, 변형가능한점착성폴리우레탄중합체; 하나이상의표면개질된실리카나노입자, 유리버블및 섬유충전제입자; 및하나이상의비크롬화된부식억제제를포함하는조성물이제공된다. 추가적으로, 본발명의개시내용에따른조성물을포함하는연성가스켓테이프가제공된다. | ||||||
| 249 | 두꺼운 겔-유사 기저층 및 폴리우레탄 래커의 상층을포함하는 다층 코팅 시스템, 그의 제조 및 용도 | KR1020037001447 | 2001-07-23 | KR100781009B1 | 2007-11-29 | 스텐더,아돌프; 코부쉬,클라우스; 쾨트너,볼프람 |
| 본 발명은 a) 겔-유사 고분자량 폴리우레탄의 기저층 및 b) 폴리우레탄 래커로 구성된 상층으로 구성된 다층 코팅에 관한 것이다. 또한, 본 발명의 다층 코팅의 제조 및 용도(적용)에 관한 것이다. 겔-유사 고분자량 폴리우레탄, 폴리우레탄 래커, 다층 코팅, 액체 분산제, | ||||||
| 250 | 개질된 고무 겔을 함유하는 폴리우레탄-고무 성형재료 | KR1020000022664 | 2000-04-28 | KR1020000071839A | 2000-11-25 | 프뤼히,토마스; 하일리거,루저; 호프만,우베; 이셀,한스-마르틴; 오브레흐트,베르너 |
| 본발명은 C=C 이중결합에반응성이있는관능기에의해개질된고무겔을포함하는성형재료및 이로제조된폴리우레탄고무및 가황고무에관한것이다. 따라서, 제조된가황고무는가수분해에대해특히높은내성을가지고, 긍정적인가황고무특성은유지하면서압축변형률이향상된다. | ||||||
| 251 | 액체 세그멘트 폴리우레탄 겔 및 이를 포함하는 초음파 진단 탐침용 결합기 | KR1019890007567 | 1989-06-02 | KR1019970002485B1 | 1997-03-05 | 시키나미야스오; 쯔타카오루; 타니구찌마사히꼬; 조우타니히데카즈 |
| 내용없음. | ||||||
| 252 | 자체-점착성 시트상 구조물 및 이의 제조방법 | KR1019840007159 | 1984-11-15 | KR1019930010440B1 | 1993-10-25 | 미클로스폰비테라; 디트마르쉐펠; 울리히폰지지키; 롤랜드루프 |
| The present disclosure is concerned with self-adhesive sheet-like structures made by adhering an adhesive polyurethane gel material to a supporting substrate and the utilization of such structures in the medical field to adhere materials such as plasters, wound dressings and appliances to the human body, and in other fields to connect articles, such as the parts of a fractured or cracked object, to one another by means of an adhesive bond. The gel is formed by immobilizing a high molecular weight polymeric polyol in the matrix of a covalently crosslinked polyurethane which is prepared by reacting polyisocyanates having an isocyanate functionality of at least 2 with higher molecular weight polyhydroxyl compounds having a hydroxyl functionality of at least 3. These reactants are selected in accordance with the following formula which relates the isocyanate number, K, (isocyanate to hydroxyl equivalents ratio times 100) to the average functionalities of the polyisocyanates (FI) and of the polyhydroxyl compounds (FP) as follows: |
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| 253 | SUPPORT STRUCTURES INCLUDING LOW TACK VISCOELASTOMERIC GEL MATERIAL AND METHODS | PCT/US2012045707 | 2012-07-06 | WO2013009602A3 | 2013-04-04 | RUSSELL DAVID DALE; CALLSEN KEVIN FREDRICK |
| A low tack viscoelastomeric gel material formed by combining, by percent weight: about 50% to about 80% of a Polyol; about 3% to about 15% of an isocyanate; about 15% to about 40% of an oil; about 0.1 % to about 1 % of a catalyst; and about 0% to about 1 % of a release agent. Support structures are also provided with a layer of low tack viscoelastomeric gel material. Further aspects also include methods of making the low tack viscoelastomeric gel material and methods of making support structures with a layer of low tack viscoelastomeric gel material. | ||||||
| 254 | ANALYTE SENSOR | PCT/US2011045385 | 2011-07-26 | WO2012018632A2 | 2012-02-09 | LEE ERIC; MICKLATCHER MARK |
| Matrix materials, such as sol-gels and polymers derivatives to contain a redox active material can be used to form electrodes and probes suitable for use in pH meters and other analyte sensing devices. | ||||||
| 255 | REVERSE THERMAL GELS AND USES THEREFOR | PCT/US2011027233 | 2011-03-04 | WO2011109732A2 | 2011-09-09 | FRIBERG THOMAS R; PARK DAEWON; WANG YADONG |
| Biodegradable triblock copolymer compositions are provided which are useful in tissue engineering and drug delivery. The copolymers are reverse thermal gels in that when heated from a lower temperature to a higher temperature, they gel. These gels are useful in drug delivery when complexed with an active agent. For example the compositions can be used for intraocular injection of active agents, such as anti-angiogenic agents for treatment of a maculopathy or retinitis. | ||||||
| 256 | GEL COAT COMPOSITION FOR IN MOLD FINISH PROCESS | PCT/US0322677 | 2003-07-21 | WO2004013236A3 | 2004-05-27 | KIA SHEILA F; RAI DEVI N; KIA HAMID G |
| Composite articles are prepared by a spray up operation. In a first step, a gel coat is applied onto a mold surface (12) which has been optionally pretreated with a mold release coating (14). Next, a barrier coating (16) is applied over the gel coat in the mold and thereafter a laminate formula (18) is applied over the barrier coat (16). The laminate contains from 20-60% by weight reinforcing fibers. In a preferred embodiment, the multilayer composite has a thickness of about 15 mm or less, and is useful as an automobile body panel. The gel coat contains a curable polyester polyurethane acrylate resin, and the composite article has a surface that has high gloss and color retention after prolonged exposure to ultraviolet radiation. The laminate preferably comprises a low shrink, low density glass fiber filled polyester resin. In a preferred embodiment, the paste of the laminate contains a dicyclopentadiene unsaturated polyester resin, polymeric hollow microspheres, and an initiator capable of initiating curing at room temperature or at temperature of 50°C or less. | ||||||
| 257 | REVERSIBLE AMINAL GEL COMPOSITIONS, METHODS, AND USE | EP17705536.5 | 2017-02-03 | EP3411451A1 | 2018-12-12 | BOUL, Peter J.; REDDY, B. Raghava; HILFIGER, Matt; THAEMLITZ, Carl |
| A well treatment composition for use in a hydrocarbon-bearing reservoir comprising a reversible aminal gel composition. The reversible aminal gel composition includes a liquid precursor composition. The liquid precursor composition is operable to remain in a liquid state at about room temperature. The liquid precursor composition comprises an organic amine composition; an aldehyde composition; a polar aprotic organic solvent; and a metal salt composition with valence 3, 4, or 5. The liquid precursor composition transitions from the liquid state to a gel state responsive to an increase in temperature in the hydrocarbon-bearing reservoir. The gel state is stable in the hydrocarbon-bearing reservoir at a temperature similar to a temperature of the hydrocarbon-bearing reservoir, and the gel state is operable to return to the liquid state responsive to a change in the hydrocarbon-bearing reservoir selected from the group consisting of: a decrease in pH in the hydrocarbon-bearing reservoir and an addition of excess metal salt composition in the hydrocarbon-bearing reservoir. | ||||||
| 258 | GEL POLYMER ELECTROLYTE AND LITHIUM SECONDARY BATTERY CONTAINING SAME | EP15848091.3 | 2015-10-01 | EP3203566B1 | 2018-08-22 | PARK, Sol Ji; AHN, Kyoung Ho; OH, Jeong Woo; LEE, Chul Haeng; JUNG, Yi Jin |
| The present invention relates to a composition for a gel polymer electrolyte comprising a liquid electrolyte solvent, a lithium salt, a polymerization initiator, and a mixed compound of a first compound and a second compound, and a lithium secondary battery comprising a positive electrode, a negative electrode, a separator, and a gel polymer electrolyte, wherein the gel polymer electrolyte is formed by polymerizing the composition for a gel polymer electrolyte. By comprising a mixed compound of a first compound and a second compound in which the first compound is an amine-based compound comprising polyethylene glycol as a functional group, and the second compound is an epoxy-based compound, the composition for a gel polymer electrolyte of the present invention exhibits, when used in a lithium secondary battery, excellent high temperature storability and is capable of enhancing a battery capacity property as well as enhancing a battery lifespan by readily inducing a hopping phenomenon. | ||||||
| 259 | ABSORBENT ARTICLE COMPRISING FLEXIBLE POLYMERIC FOAM AND INTERMEDIATES | EP16854128.2 | 2016-10-03 | EP3359207A1 | 2018-08-15 | RULE, Joseph D.; THOMPSON, Delton R., Jr. |
| Absorbent articles are described comprising a first absorbent layer comprising a polymeric foam. In one embodiment, the polyurethane foam comprises the reaction product of a polymeric polyisocyanate component having an equivalent weight of no greater than 250 g/equivalent; and a polyol component. The polyol component comprises one or more polyether polyols such that the polyol component comprises an average equivalent weight ranging from 500 to 2000 g/equivalent; an ethylene oxide content ranging from 15-30 wt.-%; a secondary hydroxyl content of at least 55 wt.-% and less than 80 wt.-% of the total hydroxyl content of the polyol component; and less than 5 wt-% water. Also described are various composites comprising the polyurethane foam described herein in combination with another substrate such as a second absorbent layer, a fluid impervious backsheet, and/or a fluid pervious topsheet. | ||||||
| 260 | BIODEGRADABLE POLYMER | EP15831236.3 | 2015-12-31 | EP3240819A1 | 2017-11-08 | COHN, Daniel |
| The invention provides a class of polymeric materials being ABA tri-block or AB di-block, comprised of biodegradable segments and poly(propylene oxide) (PPO) segment and uses thereof. | ||||||
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