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91.发明授权公开(公告)号:US09847489B1
公开(公告)日:2017-12-19
申请号:US15371765
申请日:2016-12-07
Inventor: Won Suk Shin , Changeun Song , Sang Kyu Lee , Jong Cheol Lee , Sang Jin Moon , Hoang Quoc Viet
CPC classification number: H01L51/0036 , C08G61/122 , C08G61/123 , C08G61/126 , C08G2261/124 , C08G2261/1412 , C08G2261/146 , C08G2261/18 , C08G2261/228 , C08G2261/3223 , C08G2261/3241 , C08G2261/3246 , C08G2261/334 , C08G2261/344 , C08G2261/91 , C08K3/045 , H01L51/4253 , Y02E10/549 , C08L65/00
Abstract: Provided are a novel polymer, a method of preparing the same, and an organic semiconductor device including the same. According to the present invention, the fluorine content-controlled polymer is employed in an organic active layer, thereby providing an organic optoelectric device representing improved power conversion efficiency (PCE).
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公开(公告)号:US09757342B2
公开(公告)日:2017-09-12
申请号:US14778906
申请日:2013-10-11
Applicant: PUSAN NATIONAL UNIVERSITY INDUSTRY—UNIVERSITY COOPERATION FOUNDATION , KOREA RESEARCH INSTITUTE OF CHEMICAL TECHNOLOGY , GACHON UNIVERSITY OF INDUSTRY—ACADEMIC COOPERATION FOUNDATION
Inventor: Hyun Jong Paik , Jae Kwang Song , Seong Soo An , Chae Yeon Lee , Jong Hwa Jeong , Mohammad Abdul Kadir , Tae Heon Lee
IPC: A61K9/48 , C08H1/00 , A61K47/48 , A61K8/64 , A61Q19/00 , A61K8/02 , C08J3/24 , A61K8/66 , A61K49/00 , C07K14/435 , C07K14/75 , A61K9/51 , A61K39/00
CPC classification number: A61K9/4825 , A61K8/0204 , A61K8/64 , A61K8/66 , A61K9/5138 , A61K39/00 , A61K47/62 , A61K49/0056 , A61K2800/10 , A61K2800/5428 , A61K2800/56 , A61Q19/00 , C07K14/43504 , C07K14/75 , C07K2319/21 , C08H1/00 , C08J3/246 , C08J2300/10 , C08J2389/00
Abstract: The present invention relates to a method for preparing a protein cage which comprises: a 1st step of preparing an amphiphilic polymer comprising a 1st hydrophobic polymer and a 1st hydrophilic functional group; a 2nd step of preparing a hydrophilic protein comprising a 2nd functional group binding to the 1st functional group; a 3rd step of forming an amphiphilic polymer-protein hybrid by the binding of the 1st functional group and the 2nd functional group, and forming core-shell structured particles comprising a protein shell and an amphiphilic polymer core by the self-assembly of the amphiphilic polymer in a hydrophilic solvent; and a fourth step of removing some or all of the hydrophobic polymer of the core part from the core-shell structured particles.
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公开(公告)号:US09691520B2
公开(公告)日:2017-06-27
申请号:US14389978
申请日:2013-04-03
Inventor: Byoung Gak Kim , Jong Chan Won , Yong Seok Kim , No Kyun Park , Jin Young Park
Abstract: The present invention relates to a method for preparing polymer-nanoparticles having a core-shell structure by uniformly coating a polymer on metal and inorganic particles, polymer-nanoparticles prepared thereby, and a polymer-nanoparticle composite comprising the same, and more specifically, a method for preparing polymer-nanoparticles having a core-shell structure by uniformly coating a polymer on metal and inorganic particles, polymer-nanoparticles prepared thereby, and a polymer-nanoparticle composite including the same, wherein when forming a polymer coating layer on surfaces of particles that are not subjected to separate surface treatment, excessive polymers uncoated on nanoparticles are easily removed by adding to an ionic liquid or an apolar solvent so that the polymer coating layer is formed with a nanometer-scale uniform thickness and a dense coating density, thereby showing excellent dispersibility in a polymer matrix.
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公开(公告)号:US09687772B2
公开(公告)日:2017-06-27
申请号:US14866345
申请日:2015-09-25
Inventor: Jong-San Chang , Young Kyu Hwang , Ji Woong Yoon , Do-Young Hong , U-Hwang Lee , Sukyung Lee , Kyung Ho Cho , Dong Won Hwang , Youn-Sang Bae , Seung-Joon Lee
IPC: B01D53/04 , B01J20/22 , B01J20/28 , C01B23/00 , C01B21/04 , C01B13/02 , C10L3/10 , B01D53/22 , B01D53/047 , B01D53/02
CPC classification number: B01D53/0462 , B01D53/02 , B01D53/047 , B01D53/22 , B01D53/228 , B01D2053/224 , B01D2253/10 , B01D2253/1122 , B01D2253/20 , B01D2253/204 , B01D2253/308 , B01D2256/245 , B01D2257/102 , B01J20/223 , B01J20/28033 , C01B13/0262 , C01B21/0455 , C01B23/0057 , C01B2210/0015 , C01B2210/0046 , C01B2210/007 , C10L3/105
Abstract: The present invention relates to a nitrogen adsorbent having nitrogen selective adsorptivity by including an organic-inorganic hybrid nanoporous material having a coordinatively unsaturated metal site with density of 0.2 mmol/g to 10 mmol/g in a skeleton, surface or pore; and use thereof, such as a device separating nitrogen from a gas mixture containing nitrogen and methane, a pressure swing adsorption separation device and a temperature swing adsorption separation device for separating nitrogen provided, a method for separating nitrogen and methane from a gas mixture containing nitrogen and methane, a device for separating nitrogen, oxygen or argon, a method for separating nitrogen, oxygen or argon from a gas mixture containing nitrogen, oxygen or argon, and a method for preparing nitrogen or high purity inert gas all separated from a gas mixture containing nitrogen and inert gas.
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公开(公告)号:US20170160268A1
公开(公告)日:2017-06-08
申请号:US15322894
申请日:2015-06-04
Inventor: Kyu Hong LEE , Hyo Seon YANG
IPC: G01N33/50
CPC classification number: G01N33/5014 , C12M23/00 , G01N33/5044
Abstract: A lung model device for inhalation toxicity testing is provided. The device has a plurality of mesh tissue panels having lung cells attached thereto arranged inside a case so as to have a similar structure to a human lung, and air and nanoparticles are supplied into the case through a separate respiratory operating unit, thereby enabling inhalation toxicity testing on nanoparticles to be simply and conveniently performed in an indirect way by determining changes in the state of the lung cells without using real laboratory animals. The mesh tissue panels having a smaller lattice spacing size are sequentially positioned according to the nanoparticle inflow direction, thereby providing a structure similar to the structure of a real lung.
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Patent Agency Ranking
96.发明授权公开(公告)号:US09655916B2
公开(公告)日:2017-05-23
申请号:US14600253
申请日:2015-01-20
Inventor: Byung Cheol Shin , Hasoo Seong , Aeri Lee , Jae Yang Kong , Hyae Gyeong Cheon , Young Sik Cho , Sung Soo Jun , Young Gwan Jo
IPC: A61K31/714 , A61K9/127 , A61K9/00 , A61K45/06 , A61K31/575 , A61K31/683 , A61K9/06 , A61K9/70
CPC classification number: A61K31/714 , A61K9/0014 , A61K9/06 , A61K9/127 , A61K9/7053 , A61K31/575 , A61K31/683 , A61K45/06 , A61K2300/00
Abstract: The present invention relates to a composition for external application for improving a skin disease (e.g. psoriasis). The composition contains adenosylcobalamin (coenzyme B12), optionally in admixture with other cobalamins. The composition can be present in the form of liposomal preparations, which are made of a phospholipid and cholesterol.
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公开(公告)号:US09561492B2
公开(公告)日:2017-02-07
申请号:US14869138
申请日:2015-09-29
Inventor: Dong Won Hwang , Jong-San Chang , Pravin P. Upare , U-Hwang Lee , Young Kyu Hwang
IPC: C07D319/00 , B01J23/14 , C07D319/10 , C07D319/12 , B01J21/04 , B01J21/06 , B01J21/08 , B01J35/00 , C01G19/02 , B01J37/03 , B01J29/03 , B01J29/40 , B01J29/70
CPC classification number: B01J23/14 , B01J21/04 , B01J21/063 , B01J21/066 , B01J21/08 , B01J29/0308 , B01J29/405 , B01J29/7057 , B01J35/0006 , B01J35/002 , B01J37/031 , B01J37/035 , C01G19/02 , C07D319/10 , C07D319/12
Abstract: The present invention provides a method for directly producing lactide by subjecting lactic acid to a dehydration reaction in the presence of a catalyst comprising a tin compound, preferably, a tin (IV) compound, wherein lactide can be produced directly or by one step from lactic acid, without going through the step of producing or separating lactic acid oligomer. The method of the present invention has advantages of causing no loss of lactic acid, having a high conversion ratio to lactic acid and a high selectivity to optically pure lactide, and maintaining a long life time of the catalyst. Further, since lactic acid oligomer is not or hardly generated and the selectivity of meso-lactide is low, the method also has an advantage that the cost for removing or purifying this can be saved.
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98.发明授权Substrate for surface-enhanced Raman spectroscopy and method for producing same 有权表面增强拉曼光谱用基板及其制造方法公开(公告)号:US09557272B2
公开(公告)日:2017-01-31
申请号:US15021415
申请日:2014-09-16
Applicant: Korea Institute of Machinery & Materials , Korea Research Institute of Chemical Technology
Inventor: Yung Doug Suh , Jung Heum Yun , Sung Gyu Park , Hae Mi Lee , Gun Hwan Lee , Dong Ho Kim
CPC classification number: G01N21/658 , B82Y15/00 , C09D7/61 , C23C16/44 , G01N2201/06113 , G01N2201/068 , Y10S977/954
Abstract: Disclosed are a substrate for surface-enhanced Raman spectroscopy allowing surface-enhanced Raman signals to be notably improved, even in cases of long-term storage, by producing the substrate so that metal nanoparticles thereon are distanced several nanometers apart, and a method for producing the substrate for surface-enhanced Raman spectroscopy at a large scale with simple equipment and at a low production cost.
Abstract translation: 公开了一种用于表面增强拉曼光谱的基板,即使在长期储存的情况下,通过制造基板使得其上的金属纳米颗粒在其上分开几纳米也可以显着提高表面增强拉曼信号,以及生产方法 用于表面增强拉曼光谱的基板,具有简单的设备并且生产成本低。
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公开(公告)号:US09528195B2
公开(公告)日:2016-12-27
申请号:US14239227
申请日:2012-08-17
Applicant: Sang Jin Moon , Won Wook So , Dong Soon Park , Myung Hoi Koo
Inventor: Sang Jin Moon , Won Wook So , Dong Soon Park , Myung Hoi Koo
CPC classification number: C30B11/003 , B29C39/38 , B29C39/44 , C30B11/006 , C30B29/06 , C30B29/20 , C30B29/40 , Y10T117/1092
Abstract: Provided is an apparatus for manufacturing a semiconductor or metal oxide ingot by sequentially inducing a liquid-to-solid phase transition of a liquid raw material following a solidification direction, the apparatus including: a crucible containing a semiconductor or metal oxide raw material; a cooling unit spaced apart from the crucible at a predetermined distance in a vertical direction, when a height direction of the crucible is designated by the vertical direction and a direction perpendicular to the vertical direction is designated by a horizontal direction; a first heating unit spaced apart from the crucible at a predetermined distance in the horizontal direction and surrounding a circumferential surface of the crucible; and an insulating member provided between the crucible and the cooling unit in the horizontal direction, a position of the insulating member being shifted by a shifting unit.
Abstract translation: 本发明提供一种通过依次在固化方向上引起液体原料的液相 - 固相转变来制造半导体或金属氧化物锭的装置,该装置包括:含有半导体或金属氧化物原料的坩埚; 当坩埚的高度方向由垂直方向指定并且垂直于垂直方向的方向由水平方向指定时,在垂直方向上以预定距离与坩埚隔开预定距离的冷却单元; 第一加热单元,其在水平方向上以预定距离与坩埚隔开并围绕坩埚的圆周表面; 以及绝缘构件,其在水平方向上设置在所述坩埚和所述冷却单元之间,所述绝缘构件的位置被移动单元移位。
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100.发明申请NOVEL FLUORENYL B-OXIME ESTER COMPOUNDS, PHOTOPOLYMERIZATION INITIATOR AND PHOTORESIST COMPOSITION CONTAINING THE SAME 有权新型荧光B氧化酯化合物,光聚合引发剂和含有它们的光催化组合物公开(公告)号:US20160332960A1
公开(公告)日:2016-11-17
申请号:US15112087
申请日:2015-01-19
Inventor: Chun-Rim OH , Min-Sun LEE , Won-Jung LEE , Yong-Il CHO , Seung-Rim SHIN , Jong-Il SHIN , Sang-Oh LEE , Kun JUN
IPC: C07C251/66 , G02B5/22 , G02B5/00 , G03F7/033 , G03F7/00
CPC classification number: C07C251/66 , C07C2603/18 , G02B5/003 , G02B5/223 , G03F7/0007 , G03F7/0045 , G03F7/031 , G03F7/033
Abstract: The present invention relates to a novel β-oximester fluorene derivative compound, a photopolymerization initiator comprising the same, and a photoresist composition.
Abstract translation: 本发明涉及一种新颖的β-肟基芴衍生物化合物,含有它的光聚合引发剂和光致抗蚀剂组合物。
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