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1. 发明专利

TW200637879A 超分子結構及其形成方法 SUPRAMOLECULAR STRUCTURES AND METHOD FOR FORMING THE SAME 审中-公开
简体标题：超分子结构及其形成方法 SUPRAMOLECULAR STRUCTURES AND METHOD FOR FORMING THE SAME
公开(公告)号：TW200637879A
公开(公告)日：2006-11-01
申请号：TW094113616
申请日：2005-04-28
申请人：林金福 KING-FU LIN
发明人：林金福 KING-FU LIN , 謝棋君 HSIEH CHI-CHUN
IPC分类号： C08G
摘要：本發明揭示了一種藉由兩性共軛分子所形成之超分子結構，該超分子結構係為環形圓盤結構(ring–likedisk)，其直徑約為10nm至60nm。此外，本發明亦揭示了藉由金屬醇鹽、非金屬醇鹽或無機鹽溶膠及凝膠與兩性共軛分子所形成之超分子結構，其亦為環形圓盤結構，直徑約為100nm至300nm。
简体摘要：本发明揭示了一种借由两性共轭分子所形成之超分子结构，该超分子结构系为环形圆盘结构(ring–likedisk)，其直径约为10nm至60nm。此外，本发明亦揭示了借由金属醇盐、非金属醇盐或无机盐溶胶及凝胶与两性共轭分子所形成之超分子结构，其亦为环形圆盘结构，直径约为100nm至300nm。

2. 发明授权

US07537884B2 Method for forming self-synthesizing conductive or conjugated polymer film and application 有权
标题翻译：形成自身合成导电或共轭聚合物膜的方法及应用
公开(公告)号：US07537884B2
公开(公告)日：2009-05-26
申请号：US10968104
申请日：2004-10-20
申请人： Kuo-Huang Hsieh , Man-Kit Leung , King-Fu Lin , Wen-Yen Chiu , Wen-Chang Chen , Lee-Yih Wang , Wen-Bin Liau , Chi-An Dai , Wei-Fang Su , Hung-Chun Chang , Hung-Ren Wang , Chao-Hui Kuo , Chi-Shin Lee , Jun-Ming Huang , Cheng-Yuan Shih
发明人： Kuo-Huang Hsieh , Man-Kit Leung , King-Fu Lin , Wen-Yen Chiu , Wen-Chang Chen , Lee-Yih Wang , Wen-Bin Liau , Chi-An Dai , Wei-Fang Su , Hung-Chun Chang , Hung-Ren Wang , Chao-Hui Kuo , Chi-Shin Lee , Jun-Ming Huang , Cheng-Yuan Shih
IPC分类号： G03F1/00
CPC分类号： G03F7/40 , H01L51/0003 , H01L51/0036 , H01L51/0038 , H01L51/0039
摘要： The present invention discloses a method by utilizing chemical reaction or specific attractive forces (complexation or hydrogen bonding) for forming self-synthesizing conductive or conjugated polymer film and its application. First of all, at least one photoresist layer with a first functional group and a specific pattern is formed, so that the first functional group can bond a second functional group of a conductive or conjugated polymer unit, whereby a conductive or conjugated polymer film with specific pattern is formed. Furthermore, this invention can be applied for forming emitting films, especially for forming emitting layers of OLED/PLED elements.
摘要翻译：本发明公开了一种利用化学反应或特定吸引力（络合或氢键）形成自身合成导电或共轭聚合物膜的方法及其应用。首先，形成具有第一官能团和特定图案的至少一个光致抗蚀剂层，使得第一官能团可以键合导电或共轭聚合物单元的第二官能团，由此具有特定的导电或共轭聚合物膜形成图案。此外，本发明可以用于形成发光膜，特别是用于形成OLED / PLED元件的发射层。

3. 发明授权

US5672431A Epoxy resins incorporated with imidazole/chromium acetylacetonate and composites thereof 失效
标题翻译：掺有咪唑/乙酰丙酮铬的环氧树脂及其复合材料
公开(公告)号：US5672431A
公开(公告)日：1997-09-30
申请号：US603557
申请日：1996-02-21
申请人： King-Fu Lin
发明人： King-Fu Lin
IPC分类号： C08G59/50 , C08G59/68 , C08G59/70 , C08G59/40
CPC分类号： C08G59/70 , C08G59/5033 , C08G59/686 , Y10T428/31511
摘要： The present invention provides a curable epoxy resin composition, which includes an epoxy resin; from 10 to 60 percent by weight of the epoxy resin of an amine curing agent; from 0.1 to 5 percent by weight of the epoxy resin of an imidazole accelerator; and from 0.01 to 5 percent by mole of the epoxy resin of chromium acetylacetonate (Cr(acac).sub.3). The resultant cured epoxy resin prepared from the epoxy resin composition of the present invention demonstrates improved fracture toughness. Also, the interlaminar fracture energy of the resultant graphite/epoxy laminate prepared from the cured epoxy resin of the present invention is greater than that of the conventional graphite/epoxy laminate.
摘要翻译：本发明提供了包含环氧树脂的可固化环氧树脂组合物; 10至60重量％的胺固化剂的环氧树脂; 0.1至5重量％的咪唑促进剂的环氧树脂; 和0.01〜5摩尔％的乙酰丙酮铬（Cr（acac）3）的环氧树脂。由本发明的环氧树脂组合物制备的固化环氧树脂显示出改善的断裂韧性。此外，由本发明的固化环氧树脂制备的所得石墨/环氧树脂层压体的层间断裂能大于常规石墨/环氧树脂层压体的层间断裂能。

4. 发明授权

US08513519B2 Use of exfoliated clay nanoplatelets and method for encapsulating cations 有权
标题翻译：使用剥离粘土纳米片和封装阳离子的方法
公开(公告)号：US08513519B2
公开(公告)日：2013-08-20
申请号：US12800866
申请日：2010-05-24
申请人： King-Fu Lin , Chia-Hsin Lee , Keng-Jen Lin , Ken-Yen Liu
发明人： King-Fu Lin , Chia-Hsin Lee , Keng-Jen Lin , Ken-Yen Liu
IPC分类号： H01L31/04
CPC分类号： H01G9/2004 , H01G9/2031 , Y02E10/542 , Y02P70/521
摘要： This invention relates to a method for making an electrolyte composition of a dye-sensitized solar cell comprising utilizing exfoliated clay nanoplatelets and the method for rapidly encapsulating cations. The electrolyte composition mainly includes exfoliated clay nanoplatelets, an ionic liquid and iodine. The method for rapidly encapsulating cation comprises adding the exfoliated clay nanoplatelets into a cationic solution, wherein the exfoliated clay nanoplatelets encapsulates cations and recovers into a layered structure such that phase separation of the solution occurs; and filtrating the solution to separate the clay nanoplatelets encapsulating the cations. The exfoliated clay nanoplatelets have a unique property of encapsulation for the cations, is suitable for use in an electrolyte composition for dye-sensitized solar cells, cationic drug encapsulation and environmental protection.
摘要翻译：本发明涉及一种制造染料敏化太阳能电池的电解质组合物的方法，其包括利用剥离粘土纳米片和快速包封阳离子的方法。电解质组合物主要包括剥离粘土纳米片，离子液体和碘。用于快速包封阳离子的方法包括将剥离的粘土纳米片加入阳离子溶液中，其中剥离的粘土纳米片包封阳离子并回收成层状结构，使得溶液发生相分离; 并过滤该溶液以分离封装阳离子的粘土纳米片。剥离粘土纳米片具有独特的阳离子封装性能，适用于染料敏化太阳能电池的电解质组合物，阳离子药物包封和环境保护。

5. 发明申请

US20060084009A1 Method for forming self-synthesizing conductive or conjugated polymer film and application 有权
公开(公告)号：US20060084009A1
公开(公告)日：2006-04-20
申请号：US10968104
申请日：2004-10-20
申请人： Kuo-Huang Hsieh , Man-Kit Leung , King-Fu Lin , Wen-Yen Chiu , Wen-Chang Chen , Lee-Yih Wang , Wen-Bin Liau , Chi-An Dai , Wei-Fang Su , Hung-Chun Chang , Hung-Ren Wang , Chao-Hui Kuo , Chi-Shin Lee , Jun-Ming Huang , Cheng-Yuan Shih
发明人： Kuo-Huang Hsieh , Man-Kit Leung , King-Fu Lin , Wen-Yen Chiu , Wen-Chang Chen , Lee-Yih Wang , Wen-Bin Liau , Chi-An Dai , Wei-Fang Su , Hung-Chun Chang , Hung-Ren Wang , Chao-Hui Kuo , Chi-Shin Lee , Jun-Ming Huang , Cheng-Yuan Shih
IPC分类号： G03C5/00
CPC分类号： G03F7/40 , H01L51/0003 , H01L51/0036 , H01L51/0038 , H01L51/0039
摘要： The present invention discloses a method by utilizing chemical reaction or specific attractive forces (complexation or hydrogen bonding) for forming self-synthesizing conductive or conjugated polymer film and its application. First of all, at least one photoresist layer with a first functional group and a specific pattern is formed, so that the first functional group can bond a second functional group of a conductive or conjugated polymer unit, whereby a conductive or conjugated polymer film with specific pattern is formed. Furthermore, this invention can be applied for forming emitting films, especially for forming emitting layers of OLED/PLED elements.

6. 发明申请

US20110031429A1 Use of exfoliated clay nanoplatelets and method for encapsulating cations 有权
标题翻译：使用剥离粘土纳米片和封装阳离子的方法
公开(公告)号：US20110031429A1
公开(公告)日：2011-02-10
申请号：US12800866
申请日：2010-05-24
申请人： King-Fu Lin , Chia-Hsin Lee , Keng-Jen Lin , Ken-Yen Liu
发明人： King-Fu Lin , Chia-Hsin Lee , Keng-Jen Lin , Ken-Yen Liu
IPC分类号： H01G9/022
CPC分类号： H01G9/2004 , H01G9/2031 , Y02E10/542 , Y02P70/521
摘要： This invention relates to a method for making an electrolyte composition of a dye-sensitized solar cell comprising utilizing exfoliated clay nanoplatelets and the method for rapidly encapsulating cations. The electrolyte composition mainly includes exfoliated clay nanoplatelets, an ionic liquid and iodine. The method for rapidly encapsulating cation comprises adding the exfoliated clay nanoplatelets into a cationic solution, wherein the exfoliated clay nanoplatelets encapsulates cations and recovers into a layered structure such that phase separation of the solution occurs; and filtrating the solution to separate the clay nanoplatelets encapsulating the cations. The exfoliated clay nanoplatelets have a unique property of encapsulation for the cations, is suitable for use in an electrolyte composition for dye-sensitized solar cells, cationic drug encapsulation and environmental protection.
摘要翻译：本发明涉及一种制造染料敏化太阳能电池的电解质组合物的方法，其包括利用剥离粘土纳米片和快速包封阳离子的方法。电解质组合物主要包括剥离粘土纳米片，离子液体和碘。用于快速包封阳离子的方法包括将剥离的粘土纳米片加入阳离子溶液中，其中剥离的粘土纳米片包封阳离子并回收成层状结构，使得溶液发生相分离; 并过滤该溶液以分离封装阳离子的粘土纳米片。剥离粘土纳米片具有独特的阳离子封装性能，适用于染料敏化太阳能电池的电解质组合物，阳离子药物包封和环境保护。

7. 发明申请

US20080287587A1 Method for forming polymer-clay nanocomposite latex and its application on sealing and semi-conductive materials 审中-公开
标题翻译：形成聚合物 - 粘土纳米复合胶乳的方法及其在密封和半导体材料上的应用
公开(公告)号：US20080287587A1
公开(公告)日：2008-11-20
申请号：US11840972
申请日：2007-08-19
申请人： King-Fu Lin , An-Ting Chien , Ming-Huei Yen , Chia-Hsin Lee , Ting-Hsiang Weng , Chuan-Cheng Chou
发明人： King-Fu Lin , An-Ting Chien , Ming-Huei Yen , Chia-Hsin Lee , Ting-Hsiang Weng , Chuan-Cheng Chou
IPC分类号： C08K3/36
CPC分类号： C08F2/22 , C08F2/44 , C08F218/04 , C08F220/18 , C08F220/56
摘要： The present invention discloses a method to prepare the polymer-clay nanocomposite latex. At first, a clay and a water-soluble initiator are mixed in water to form an intermediate solution, in which the initiator is absorbed or intercalated into the clay. Then, at least one monomer from vinyl ester, acrylic and acrylamide derivatives is added into the intermediate solution for soap-free emulsion polymerization, which may also be added with some other monomers such as acrylic acid, maleic anhydride, vinyl chloride, acrylonitrile ethylene, et al. for copolymerization. During soap-free emulsion polymerization, the radicals from the dissociated initiators will react with the monomers to form the monomer radicals, which tend to diffuse into the interlayer region of clays for further polymerization and eventually exfoliate the clays. The prepared exfoliated polymer-clay nanocomposite latex can be cast into a vapor-impermeable film so that it can be used as a sealing material or coating. The exfoliated clay in nanoplatelet form is a two-dimensional electrolyte nanomaterial and its aqueous solution is conductive. The exfoliated clay aqueous solutions can be prepared by removing the polymer matrix from the nanocomposite latex with solvent. As the exfoliated clay solution is cast into a film with the clay content is more than or equal to 80 wt %, the film is semi-conductive. Thus, the exfoliated clay aqueous solutions can be applied to the electronic materials and organic/inorganic multilayer composite films.
摘要翻译：本发明公开了一种制备聚合物 - 粘土纳米复合胶乳的方法。首先，在水中混合粘土和水溶性引发剂，形成中间溶液，其中引发剂被吸收或嵌入粘土中。然后，将乙烯基酯，丙烯酸和丙烯酰胺衍生物中的至少一种单体加入用于无皂乳液聚合的中间溶液中，其也可以加入一些其它单体如丙烯酸，马来酸酐，氯乙烯，丙烯腈乙烯， et al。用于共聚。在无皂乳液聚合过程中，来自离解的引发剂的自由基将与单体反应形成单体自由基，其倾向于扩散到粘土的中间层区域以进一步聚合并最终剥落粘土。制备的剥离聚合物 - 粘土纳米复合胶乳可以浇铸成不透气的膜，使其可以用作密封材料或涂层。纳米血小板形式的剥离粘土是二维电解质纳米材料，其水溶液是导电的。剥离的粘土水溶液可以通过用溶剂从纳米复合胶乳中除去聚合物基质来制备。当剥离粘土溶液浇铸成粘土含量大于或等于80重量％的膜时，该膜是半导体的。因此，剥离粘土水溶液可以应用于电子材料和有机/无机多层复合膜。

8. 发明申请

US20070120113A1 Supramolecular structures and method for forming the same 审中-公开
标题翻译：超分子结构及其形成方法
公开(公告)号：US20070120113A1
公开(公告)日：2007-05-31
申请号：US11287309
申请日：2005-11-28
申请人： King-Fu Lin , Chi-Chun Hsieh
发明人： King-Fu Lin , Chi-Chun Hsieh
IPC分类号： H01L51/00 , C07D495/02 , C07D409/14
CPC分类号： C07C309/32
摘要： A primary supramolecular structure is described. The primary supramolecular structure has a shape of ring-like disk. The shape of ring-like disk has a diameter of about 10 nanometers to about 60 nanometers. The mentioned primary supramolecular structure is formed by self-assembly of amphiphilic conjugate molecules. Moreover, a secondary supramolecular structure is described. The secondary supramolecular structure has a shape of ring-like disk. The shape of ring-like disk has a diameter of about 100 nanometers to about 300 nanometers. The mentioned secondary supramolecular structure is formed by self-assembly of amphiphilic conjugate molecules hybrid with metal alkoxides or non-metal alkoxides.
摘要翻译：描述了一个主要的超分子结构。主要的超分子结构具有环状盘的形状。环形盘的形状具有约10纳米至约60纳米的直径。所述的主要超分子结构通过两亲性共轭分子的自组装形成。此外，描述了次级超分子结构。次级超分子结构具有环状圆盘形状。环形盘的形状具有约100纳米至约300纳米的直径。所述的次级超分子结构通过与金属醇盐或非金属醇盐杂交的两亲性缀合物分子的自组装形成。

9. 发明授权

US5598005A Non-destructive method for determining the extent of cure of a polymerizing material and the solidification of a thermoplastic polymer based on wavelength shift of fluroescence 失效
标题翻译：用于确定聚合材料的固化程度和基于荧光波长漂移的热塑性聚合物固化的非破坏性方法
公开(公告)号：US5598005A
公开(公告)日：1997-01-28
申请号：US389823
申请日：1995-02-15
申请人： Francis W. Wang , Robert E. Lowry , King-Fu Lin
发明人： Francis W. Wang , Robert E. Lowry , King-Fu Lin
IPC分类号： A61F2/46 , G01N21/64 , G01N33/44
CPC分类号： G01N21/648 , A61B17/8836 , G01N21/64 , A61B2017/883 , G01N33/44
摘要： The change in the peak fluorescence wavelength of a small amount of a fluorescent compound, i.e., a fluorophore, which has been dissolved in a polymerizing material or a thermoplastic polymer is used to determine the extent of cure or solidification, respectively. The measured wavelength-shift can either be compared with a previously determined correlation to obtain an absolute value for the extent of cure, or can be utilized to compare or maintain an acceptable extent of cure throughout a manufacturing or a clinical process. Similarly, in the processing of a thermoplastic polymer by injection molding, the measured wavelength shift can either be compared with a previously determined correlation to obtain an absolute value for the temperature of the polymer, or can be utilized to adjust the injection molding cycle so that the mold is opened at the optimum times. The fluorophores used in the method are preferably selected from a class of fluorophores comprising alpha, omega substituted linear alkenes having an electron accepting group attached at the alpha position and an electron donating group attached at the omega position.
摘要翻译：使用溶解在聚合材料或热塑性聚合物中的少量荧光化合物即荧光团的峰值荧光波长的变化来分别确定固化或固化的程度。测量的波长漂移可以与先前确定的相关性进行比较，以获得固化程度的绝对值，或者可以用于在整个制造或临床过程中比较或维持可接受的固化程度。类似地，在通过注射成型处理热塑性聚合物时，将测量的波长偏移与先前确定的相关性进行比较以获得聚合物温度的绝对值，或者可用于调节注射成型周期，使得模具在最佳时间打开。在该方法中使用的荧光团优选选自一类荧光团，其包括在α位置附有电子接受基团的α，ω-取代的线性烯烃和连接在ω位置的给电子基团。

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