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1. 发明授权

US08088739B2 Method of fixing rail molecule and nano transport device 失效
标题翻译：轨道分子和纳米输送装置的固定方法
公开(公告)号：US08088739B2
公开(公告)日：2012-01-03
申请号：US11919640
申请日：2005-11-21
申请人： Hiroyuki Fujita , Shoji Takeuchi , Ryuji Yokokawa
发明人： Hiroyuki Fujita , Shoji Takeuchi , Ryuji Yokokawa
IPC分类号： A61K38/16 , C07K14/00
CPC分类号： H02N11/006 , B82Y15/00 , F04B19/006 , F05B2250/84 , Y10S977/705
摘要： An object is to move a rail molecule by means of a biomolecular motor deposited on a base and inactivate the biomolecular motor through irradiation with light having a predetermined wavelength, to thereby readily and reliably fix the rail molecule at a predetermined position, while orienting the rail molecule in a predetermined direction without employment of any reagent. A method for fixing a rail molecule which has polarity and on which a biomolecular motor moves in a direction corresponding to the polarity includes depositing a biomolecular motor on a base; moving a rail molecule by means of the biomolecular motor; and inactivating the biomolecular motor by irradiating the biomolecular motor with light having a predetermined wavelength when the rail molecule reaches a predetermined position, to thereby fix the rail molecule so that it is oriented in a predetermined direction.
摘要翻译：目的是通过沉积在基底上的生物分子马达来移动轨道分子，并通过用具有预定波长的光照射来灭活生物分子马达，从而容易且可靠地将轨道分子固定在预定位置，同时定向轨道分子在预定方向上而不使用任何试剂。固定具有极性的轨道分子的方法，其中生物分子马达在与极性相对应的方向上移动，包括在基底上沉积生物分子马达; 通过生物分子马达移动轨道分子; 并且当轨道分子到达预定位置时通过用具有预定波长的光照射生物分子马达来使生物分子马达失活，从而固定轨道分子使其沿预定方向取向。

2. 发明申请

US20100076180A1 Method of fixing rail molecule and nano transport device 失效
标题翻译：轨道分子和纳米输送装置的固定方法
公开(公告)号：US20100076180A1
公开(公告)日：2010-03-25
申请号：US11919640
申请日：2005-11-21
申请人： Hiroyuki Fujita , Shoji Takeuchi , Ryuji Yokokawa
发明人： Hiroyuki Fujita , Shoji Takeuchi , Ryuji Yokokawa
IPC分类号： C07K14/46 , C12P21/06 , C12N9/14
CPC分类号： H02N11/006 , B82Y15/00 , F04B19/006 , F05B2250/84 , Y10S977/705
摘要： An object is to move a rail molecule by means of a biomolecular motor deposited on a base and inactivate the biomolecular motor through irradiation with light having a predetermined wavelength, to thereby readily and reliably fix the rail molecule at a predetermined position, while orienting the rail molecule in a predetermined direction without employment of any reagent. A method for fixing a rail molecule which has polarity and on which a biomolecular motor moves in a direction corresponding to the polarity includes depositing a biomolecular motor on a base; moving a rail molecule by means of the biomolecular motor; and inactivating the biomolecular motor by irradiating the biomolecular motor with light having a predetermined wavelength when the rail molecule reaches a predetermined position, to thereby fix the rail molecule so that it is oriented in a predetermined direction.
摘要翻译：目的是通过沉积在基底上的生物分子马达来移动轨道分子，并通过用具有预定波长的光照射来灭活生物分子马达，从而容易且可靠地将轨道分子固定在预定位置，同时定向轨道分子在预定方向上而不使用任何试剂。固定具有极性的轨道分子的方法，其中生物分子马达在与极性相对应的方向上移动，包括在基底上沉积生物分子马达; 通过生物分子马达移动轨道分子; 并且当轨道分子到达预定位置时通过用具有预定波长的光照射生物分子马达来使生物分子马达失活，从而固定轨道分子使其沿预定方向取向。

3. 发明申请

US20120070873A1 METHOD OF FIXING RAIL MOLECULE AND NANO TRANSPORT DEVICE 审中-公开
标题翻译：固定铁路分子和纳米交通装置的方法
公开(公告)号：US20120070873A1
公开(公告)日：2012-03-22
申请号：US13307185
申请日：2011-11-30
申请人： Hiroyuki Fujita , Shoji Takeuchi , Ryuji Yokokawa
发明人： Hiroyuki Fujita , Shoji Takeuchi , Ryuji Yokokawa
IPC分类号： C12N13/00
CPC分类号： H02N11/006 , B82Y15/00 , F04B19/006 , F05B2250/84 , Y10S977/705
摘要： An object is to move a rail molecule by means of a biomolecular motor deposited on a base and inactivate the biomolecular motor through irradiation with light having a predetermined wavelength, to thereby readily and reliably fix the rail molecule at a predetermined position, while orienting the rail molecule in a predetermined direction without employment of any reagent. A method for fixing a rail molecule which has polarity and on which a biomolecular motor moves in a direction corresponding to the polarity includes depositing a biomolecular motor on a base; moving a rail molecule by means of the biomolecular motor; and inactivating the biomolecular motor by irradiating the biomolecular motor with light having a predetermined wavelength when the rail molecule reaches a predetermined position, to thereby fix the rail molecule so that it is oriented in a predetermined direction.
摘要翻译：目的是通过沉积在基底上的生物分子马达来移动轨道分子，并通过用具有预定波长的光照射来灭活生物分子马达，从而容易且可靠地将轨道分子固定在预定位置，同时定向轨道分子在预定方向上而不使用任何试剂。固定具有极性的轨道分子的方法，其中生物分子马达在与极性相对应的方向上移动，包括在基底上沉积生物分子马达; 通过生物分子马达移动轨道分子; 并且当轨道分子到达预定位置时通过用具有预定波长的光照射生物分子马达来使生物分子马达失活，从而固定轨道分子使其沿预定方向取向。

4. 发明授权

US08398866B2 Microchip for forming emulsion and method for manufacturing the same 有权
标题翻译：用于形成乳液的微粒及其制造方法
公开(公告)号：US08398866B2
公开(公告)日：2013-03-19
申请号：US13525639
申请日：2012-06-18
申请人： Yutaka Ozawa , Ryoichi Ohigashi , Koji Fujimoto , Shoji Takeuchi
发明人： Yutaka Ozawa , Ryoichi Ohigashi , Koji Fujimoto , Shoji Takeuchi
IPC分类号： B01F5/08
CPC分类号： B01F3/0807 , B01F5/0646 , B01F5/0653 , B01F13/0062 , Y10T137/87652
摘要： A microchip for forming an emulsion has a first glass substrate, a second glass substrate and a silicon substrate. The silicon substrate has formed therein a first fluid flow path through which a first fluid flows and a second fluid flow path through which a second fluid that is not mixed with the first fluid flows. The first fluid flow path has a plurality of branched flow paths that join at a joint portion. The second fluid flow path communicates with the joint portion. The silicon substrate has formed therein an emulsion formation flow path that faces an edge portion of the second fluid flow path at the joint portion. An emulsion composed of the first fluid and the second fluid that is surrounded by the first fluid is formed in the emulsion formation flow path.
摘要翻译：用于形成乳液的微芯片具有第一玻璃基板，第二玻璃基板和硅基板。硅衬底在其中形成有第一流体流过的第一流体流动路径和不与第一流体混合的第二流体流过的第二流体流动路径。第一流体流动路径具有连接在接合部分处的多个分支流路。第二流体流路与接合部连通。硅衬底中形成有乳液形成流动路径，其在接合部分处面向第二流体流路的边缘部分。在乳液形成流动路径中形成由第一流体和第一流体包围的由第一流体包围的乳液。

5. 发明授权

US08263152B2 Method of producing ice-candy in an ice-candy molding container 有权
标题翻译：在冰糖成型容器中制造冰糖的方法
公开(公告)号：US08263152B2
公开(公告)日：2012-09-11
申请号：US13048215
申请日：2011-03-15
申请人： Shoji Takeuchi
发明人： Shoji Takeuchi
IPC分类号： A23G9/00
CPC分类号： A23G9/04 , A23G1/22 , A23G3/0031 , A23G3/0268 , A23G9/22 , A23G9/50
摘要： An ice-candy forming container is provided which produces ice-candies having a complicated shape copying the face of a cartoon character or the like with higher quality and without a loss in shape. A forming container includes a first mold having a pattern portion formed in one face thereof, and a second mold configured to slide over and along the one face of the first mold, in a close contact relation, in directions designated by arrows A1-A2, so as to contain the first mold therein. In such a containing position, the second mold contacts externally and closely substantially an entire surface of the outer periphery of the pattern portion.
摘要翻译：提供了一种冰糖成型容器，其产生具有复杂形状的冰糖，以更高质量复制卡通人物等的面部，并且没有形状损失。成形容器包括：第一模具，其具有形成在其一个面上的图案部分;以及第二模具，其被构造成沿着箭头A1-A2所示的方向以紧密接触的方式在第一模具的一个面上滑动，以便容纳其中的第一模具。在这种容纳位置中，第二模具在图案部分的外周的外表面附近大致接近。

6. 发明申请

US20100027372A1 MICROCHIP FOR FORMING EMULSION AND METHOD FOR MANUFACTURING THE SAME 有权
标题翻译：用于形成乳液的微型成型机及其制造方法
公开(公告)号：US20100027372A1
公开(公告)日：2010-02-04
申请号：US12507369
申请日：2009-07-22
申请人： Yutaka OZAWA , Ryoichi Ohigashi , Koji Fujimoto , Shoji Takeuchi
发明人： Yutaka OZAWA , Ryoichi Ohigashi , Koji Fujimoto , Shoji Takeuchi
IPC分类号： B01F13/00 , B01F5/06 , B32B37/12
CPC分类号： B01F3/0807 , B01F5/0646 , B01F5/0653 , B01F13/0062 , Y10T137/87652
摘要： A microchip for forming an emulsion has a first glass substrate, a second glass substrate and a silicon substrate. The silicon substrate has formed therein a first fluid flow path through which a first fluid flows and a second fluid flow path through which a second fluid that is not mixed with the first fluid flows. The first fluid flow path has a plurality of branched flow paths that join at a joint portion. The second fluid flow path communicates with the joint portion. The silicon substrate has formed therein an emulsion formation flow path that faces an edge portion of the second fluid flow path at the joint portion. An emulsion composed of the first fluid and the second fluid that is surrounded by the first fluid is formed in the emulsion formation flow path.
摘要翻译：用于形成乳液的微芯片具有第一玻璃基板，第二玻璃基板和硅基板。硅衬底在其中形成有第一流体流过的第一流体流动路径和不与第一流体混合的第二流体流过的第二流体流动路径。第一流体流动路径具有连接在接合部分处的多个分支流路。第二流体流路与接合部连通。硅衬底中形成有乳液形成流动路径，其在接合部分处面向第二流体流路的边缘部分。在乳液形成流动路径中形成由第一流体和第一流体包围的由第一流体包围的乳液。

7. 发明申请

US20050224978A1 Heat curable adhesive composition, article, semiconductor apparatus and method 审中-公开
标题翻译：热固性粘合剂组合物，制品，半导体装置和方法
公开(公告)号：US20050224978A1
公开(公告)日：2005-10-13
申请号：US10517670
申请日：2003-06-23
申请人： Kohichiro Kawate , Shoji Takeuchi , Makoto Sakakibara
发明人： Kohichiro Kawate , Shoji Takeuchi , Makoto Sakakibara
IPC分类号： C09J7/02 , H01L21/58 , H01L21/68 , H01L23/31 , H01L23/48
CPC分类号： H01L21/6836 , C09J7/22 , C09J7/35 , C09J2203/326 , C09J2463/00 , H01L23/3128 , H01L24/27 , H01L24/29 , H01L24/32 , H01L24/45 , H01L24/48 , H01L24/73 , H01L24/83 , H01L2221/68327 , H01L2221/68336 , H01L2224/274 , H01L2224/29 , H01L2224/29101 , H01L2224/2919 , H01L2224/2929 , H01L2224/29299 , H01L2224/32145 , H01L2224/32225 , H01L2224/45144 , H01L2224/48091 , H01L2224/48227 , H01L2224/48465 , H01L2224/48472 , H01L2224/73265 , H01L2224/83191 , H01L2224/83855 , H01L2224/92247 , H01L2225/0651 , H01L2225/06582 , H01L2924/00013 , H01L2924/00014 , H01L2924/01005 , H01L2924/01006 , H01L2924/01011 , H01L2924/01019 , H01L2924/01023 , H01L2924/01027 , H01L2924/01029 , H01L2924/01033 , H01L2924/01045 , H01L2924/01051 , H01L2924/01078 , H01L2924/01079 , H01L2924/014 , H01L2924/0665 , H01L2924/07802 , H01L2924/10253 , H01L2924/12044 , H01L2924/14 , H01L2924/15311 , H01L2924/181 , H01L2924/19041 , Y10T428/31511 , H01L2924/00 , H01L2924/00012 , H01L2924/3512 , H01L2224/29099 , H01L2224/29199 , H01L2224/45015 , H01L2924/207
摘要： Provided are a heat curable adhesive composition and an adhesive article suited for dicing of a semiconductor and die bonding of the diced semiconductor chip, and a semiconductor apparatus and a process for preparing a semiconductor apparatus using the adhesive composition and article. In one embodiment, the present invention provides a heat curable adhesive composition comprising a caprolactone-modified epoxy resin and a tack reducing component. Another embodiment of the present invention provides an adhesive article comprising a heat curable adhesive layer of a heat curable adhesive composition comprising a caprolactone-modified epoxy resin, a tack reducing component, and a backing layer carrying said adhesive layer on at least a portion of the backing layer.
摘要翻译：提供一种热固性粘合剂组合物和适于切割半导体的粘合剂制品和切割的半导体芯片的裸片接合，半导体装置和使用该粘合剂组合物和制品的半导体装置的制备方法。在一个实施方案中，本发明提供了包含己内酯改性的环氧树脂和降粘组分的热固性粘合剂组合物。本发明的另一个实施方案提供了一种粘合剂制品，其包含热可固化粘合剂组合物的热固化粘合剂层，所述热固化粘合剂组合物包含己内酯改性的环氧树脂，降粘组分和在所述粘合剂层的至少一部分上承载所述粘合剂层的背衬层背层。

8. 发明授权

US5142849A Aquatic plant cutting apparatus and aquatic plant recovery boat equipped with the apparatus 失效
标题翻译：水生植物切割设备和水生植物回收船配备该设备
公开(公告)号：US5142849A
公开(公告)日：1992-09-01
申请号：US710485
申请日：1991-06-05
申请人： Tomohiko Amimoto , Shoji Takeuchi
发明人： Tomohiko Amimoto , Shoji Takeuchi
IPC分类号： A01D44/00 , E02B15/00
CPC分类号： A01D44/00
摘要： An aquatic plant cutting apparatus comprises a first fixed edge having a ribbon-like shape and having a cutting edge portion at its edge and at least one rotary edge juxtaposed along the front edge portion of the first fixed edge, and an aquatic plant recovery boat is constituted by fitting the aquatic plant cutting apparatus to floating means having a propeller through a connection member.
摘要翻译：一种水生植物切割装置包括具有带状形状的第一固定边缘及其边缘处的切割边缘部分和沿着第一固定边缘的前边缘部分并置的至少一个旋转边缘，水生植物回收船是通过将水生植物切割装置装配到具有螺旋桨的浮动装置通过连接构件构成。

9. 发明授权

US09476834B2 Process for producing supramolecular fiber 有权
标题翻译：超分子纤维生产工艺
公开(公告)号：US09476834B2
公开(公告)日：2016-10-25
申请号：US13522155
申请日：2010-09-17
申请人： Shoji Takeuchi , Hiroaki Onoe , Daisuke Kiriya , Itaru Hamachi , Masato Ikeda
发明人： Shoji Takeuchi , Hiroaki Onoe , Daisuke Kiriya , Itaru Hamachi , Masato Ikeda
IPC分类号： D01D5/00 , D01D5/34 , D01F8/18 , G01N21/76 , D01F6/94
CPC分类号： G01N21/76 , D01D5/00 , D01D5/34 , D01F6/94 , D01F8/18
摘要： A method for preparing a linearly extended supramolecular fiber or a plurality of linearly aligned supramolecular fibers, which comprises the step of allowing supramolecular monomers to be self-assembled in a microfluidic channel.
摘要翻译：一种制备线性延伸的超分子纤维或多种线性排列的超分子纤维的方法，其包括允许超分子单体在微流体通道中自组装的步骤。

10. 发明授权

US08999443B2 Method for fabricating a microarray of soft materials 有权
标题翻译：软材料微阵列的制造方法
公开(公告)号：US08999443B2
公开(公告)日：2015-04-07
申请号：US13814588
申请日：2012-03-27
申请人： Satoshi Hiyama , Kaori Kuribayashi , Hiroaki Onoe , Shoji Takeuchi
发明人： Satoshi Hiyama , Kaori Kuribayashi , Hiroaki Onoe , Shoji Takeuchi
IPC分类号： C23C16/00 , B05D1/32 , C12N15/09 , G01N37/00 , G01N33/543 , B81C1/00
CPC分类号： B05D1/325 , B01J2219/00317 , B01J2219/00529 , B01J2219/00637 , B01J2219/00659 , B01J2219/00722 , B01J2219/00725 , B81B2201/0214 , B81B2201/058 , B81C1/00206 , C12N15/09 , G01N33/543 , G01N37/00
摘要： A method for fabricating a microarray of plural soft materials includes: vapor-depositing a first layer poly(para-xylylene) resin on a substrate, forming a first micro pattern in the poly(para-xylylene) resin; obtaining a substrate including a first microarray formed by pouring a first soft material solution, freeze-drying the first soft material to obtain a micro-arrayed substrate of the freeze-dried first soft material; vapor-depositing a second layer poly(para-xylylene) resin on the micro-arrayed substrate of the freeze-dried first soft material, forming a second micro pattern placed differently from the first micro pattern by penetrating the poly(para-xylylene) resin of the first and second layers, forming a second microarray on the substrate by pouring a second soft material solution; and forming a microarray of the first and second soft materials on the substrate by peeling off the poly(para-xylylene) resin of the first and second layers.
摘要翻译：一种制备多种软材料的微阵列的方法包括：在基材上蒸镀第一层聚（对二甲苯）树脂，在聚（对二甲苯）树脂中形成第一微图案; 获得包括通过倾倒第一软质材料溶液形成的第一微阵列的基板，冷冻干燥第一软质材料以获得冷冻干燥的第一软质材料的微阵列基板; 在冷冻干燥的第一软质材料的微阵列基底上气相沉积第二层聚（对二甲苯）树脂，通过穿透聚（对二甲苯）树脂形成不同于第一微图案的第二微图案的第一和第二层，通过倾倒第二软材料溶液在基底上形成第二微阵列; 以及通过剥离第一层和第二层的聚（对二甲苯）树脂，在基材上形成第一和第二软材料的微阵列。

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