公开(公告)号：US20150276751A1

公开(公告)日：2015-10-01

申请号：US14434270

申请日：2013-10-10

Applicant: JAPAN SCIENCE AND TECHNOLOGY AGENCY

Inventor： Motomu Kanai ,  Hirokazu Komatsu

IPC: G01N33/58 ,  C07D311/90

CPC classification number: G01N33/582 ,  A61K49/0041 ,  C07D311/90 ,  C12Q1/48 ,  G01N2333/91051 ,  G01N2440/10

Abstract: A reagent for imaging an advancing intracellular acetylation, for example, an acetylation that is advanced by the action of acetyl-CoA in the mitochondria, at high sensitivity and high efficiency, which comprises a combination of a rhodamine derivative that is substantially non-fluorescent before being acetylated, and emits strong fluorescence after being acetylated, and an acylation catalyst and/or an acylation reaction-promoting agent.

Abstract translation: 用于成像前进的细胞内乙酰化的试剂，例如在线粒体中通过乙酰辅酶A的作用促进的乙酰化，其具有高灵敏度和高效率，其包括基本上不荧光的罗丹明衍生物的组合 乙酰化，乙酰化后发出强荧光，酰化催化剂和/或酰化反应促进剂。

公开(公告)号：US09130111B2

公开(公告)日：2015-09-08

申请号：US12963168

申请日：2010-12-08

Applicant: Suguru Noda

Inventor： Suguru Noda

IPC: C30B1/04 ,  H01L31/18 ,  C30B25/02 ,  C30B29/06 ,  C30B33/00 ,  H01L31/0392 ,  H01L21/02

CPC classification number: H01L31/1804 ,  C30B25/02 ,  C30B29/06 ,  C30B33/00 ,  H01L21/02381 ,  H01L21/0245 ,  H01L21/02532 ,  H01L21/02634 ,  H01L21/02664 ,  H01L31/03921 ,  Y02E10/547 ,  Y02P70/521

Abstract: The present invention provides a method for manufacturing a monocrystalline film and a device formed by the above method, and according to the method mentioned above, lift-off of the monocrystalline silicon film is preferably performed and a high-purity monocrystalline silicon film can be obtained. A monocrystalline silicon substrate (template Si substrate) 201 is prepared, and on this monocrystalline silicon substrate 201, an epitaxial sacrificial layer 202 is formed. Subsequently, on this sacrificial layer 202, a monocrystalline silicon thin film 203 is rapidly epitaxially-grown using a RVD method, followed by etching of the sacrificial layer 202, whereby a monocrystalline silicon thin film 204 used as a photovoltaic layer of solar cells is formed.

Abstract translation: 本发明提供一种制造单晶膜的方法和通过上述方法形成的器件，并且根据上述方法，优选进行单晶硅膜的剥离，并且可以获得高纯度单晶硅膜 。 制备单晶硅衬底（模板Si衬底）201，并且在该单晶硅衬底201上形成外延牺牲层202。 随后，在该牺牲层202上，使用RVD方法快速地外延生长单晶硅薄膜203，然后蚀刻牺牲层202，由此形成用作太阳能电池的光伏层的单晶硅薄膜204 。

公开(公告)号：US09126198B2

公开(公告)日：2015-09-08

申请号：US13202320

申请日：2010-02-19

Applicant: Kenichi Yoshikawa ,  Masahiro Takinoue ,  Yu Atsumi

Inventor： Kenichi Yoshikawa ,  Masahiro Takinoue ,  Yu Atsumi

IPC: H02N1/10 ,  B01L3/00 ,  H02N1/00

CPC classification number: B01L3/50273 ,  B01L3/502792 ,  B01L2300/0861 ,  B01L2300/088 ,  B01L2300/089 ,  B01L2400/0415 ,  B01L2400/0424 ,  H02N1/002 ,  H02N1/004 ,  H02N1/10

Abstract: A technique capable of making an object move and transporting it without generation of a current, and extracting mechanical work. As a result of diligent effort, the present inventors have found that by arranging two electrodes for generating an electric field for a dielectric body of a micrometer-size or the like in an insulating fluid such as oil, such that the central axes of the two electrodes are not aligned, and applying an electric field (for example, constant electric field), the dielectric body can be transported three-dimensionally at will, and as a result, mechanical work can be extracted.

Abstract translation: 一种能够使物体移动并运送而不产生电流并提取机械作业的技术。 作为努力的结果，本发明人已经发现，通过在诸如油的绝缘流体中布置用于产生微米尺寸等的电介质体的电场的两个电极，使得两个的中心轴 电极不对齐，并且施加电场（例如，恒定电场），电介质体可以随意三维地传输，结果可以提取机械作业。

公开(公告)号：US09114402B2

公开(公告)日：2015-08-25

申请号：US13513331

申请日：2010-07-26

Applicant: Takatoki Yamamoto

Inventor： Takatoki Yamamoto

IPC: B03C5/02 ,  B01L3/00 ,  G01N15/10

CPC classification number: B03C5/026 ,  B01L3/502761 ,  B01L2200/0652 ,  B01L2300/0645 ,  B01L2300/0864 ,  B01L2300/0896 ,  B01L2400/0415 ,  B03C2201/26 ,  G01N15/1031 ,  G01N15/1056

Abstract: A channel device including a nanosize channel through which single molecule flows, at least one electrode pair arranged near the nanosize channel, and an AC power source that applies an AC voltage to the electrodes. This channel device is useful for identifying molecules one by one. Furthermore, a channel device including a nanosize channel through which single molecule flows, a branching portion, and a plurality of branching channels, wherein (i) an electrode pair is arranged near the nanosize channel so as to sandwich the nanosize channel between the electrodes, or (ii) one electrode of the electrode pair is located near the nanosize channel, whereas the other is arranged near the branching channels. This channel device is useful for separating single molecule. The present channel device achieves identification or separation at an accuracy of 100% in principle. A sample treatment apparatus according to present invention includes a channel device, a measurement section, and an arithmetic processing section. The measurement section applies a voltage (DC or AC) to between electrodes of an electrode pair installed in the nanosize channel, and measures an electric signal when single molecule passes between the electrodes to identify the molecule (see FIG. 1B).

Abstract translation: 包括单分子流过的纳米尺寸通道，配置在纳米尺寸通道附近的至少一个电极对的通道器件以及向电极施加AC电压的AC电源。 该通道装置可用于逐个识别分子。 此外，包括单分子流过的纳米尺寸通道，分支部分和多个分支通道的通道器件，其中（i）电极对布置在纳米尺寸通道附近，以将纳米尺寸通道夹在电极之间， 或（ii）电极对的一个电极位于纳米尺寸通道附近，而另一个设置在分支通道附近。 该通道装置可用于分离单分子。 本通道装置原则上以100％的精度实现识别或分离。 根据本发明的样品处理装置包括通道装置，测量部和运算处理部。 测量部分在安装在纳米尺寸通道中的电极对的电极之间施加电压（DC或AC），并且当单分子通过电极之间测量电信号以识别分子（参见图1B）。

公开(公告)号：US20150224452A1

公开(公告)日：2015-08-13

申请号：US14426508

申请日：2013-09-06

Applicant: JAPAN SCIENCE AND TECHNOLOGY AGENCY

Inventor： Takahiko Hariyama ,  Yasuharu Takaku ,  Hiroshi Suzuki ,  Masatsugu Shimomura ,  Daisuke Ishii ,  Isao Ohta ,  Yoshinori Muranaka

IPC: B01D71/38 ,  B01D69/12 ,  B01D69/02 ,  B01D67/00

CPC classification number: B01D71/38 ,  B01D67/009 ,  B01D69/02 ,  B01D69/127 ,  B01D2323/30 ,  B01D2325/36 ,  C09D4/00 ,  C09D4/06

Abstract: Provided is a technique for fabricating a novel thin membrane with a starting material such as a biocompatible compound that is not easily processible into a membrane, particularly a technique for fabricating a novel thin membrane of a composition that is gradually polymerized from a membrane surface into the membrane in the cross sectional direction of the membrane, and having, for example, different structures on the front and back of the membrane. The technique includes the steps of preparing a solution of a starting material compound; forming a thin membrane of the solution on a base material surface; and forming the organic polymer thin membrane through a polymerization reaction caused by irradiating the exposed surface of the thin membrane with a plasma or an electron beam.

Abstract translation: 本发明提供一种制备具有不容易加工成膜的生物相容性化合物等起始材料的新型薄膜的技术，特别是制造从膜表面逐渐聚合的新型薄膜的技术， 膜在膜的横截面方向上，并且在膜的前后具有例如不同的结构。 该技术包括制备原料化合物溶液的步骤; 在基材表面上形成薄膜溶液; 以及通过用等离子体或电子束照射薄膜的暴露表面而引起的聚合反应形成有机聚合物薄膜。

公开(公告)号：US09103820B2

公开(公告)日：2015-08-11

申请号：US11631008

申请日：2005-06-28

Applicant: Kiyotaka Nishikawa

Inventor： Kiyotaka Nishikawa

IPC: C40B30/04 ,  C07K7/00 ,  G01N33/50 ,  A61K38/00

CPC classification number: G01N33/5014 ,  A61K38/00 ,  Y02A50/471

Abstract: A screening method directed towards; (1) specifying a receptor binding site by introduction of mutation, and (2) specifying a binding site-specific peptide motif on the basis of an amino acid selection ratio by contrast between a peptide motif bound to a wild-type subunit and a peptide motif bound to a mutant functionally deficient in the binding site according to a peptide library method. A peptide which inhibits a toxin whose receptor binding portion has a subunit structure is screened. Accordingly, an STX2 inhibitor in which an STX2 inhibiting peptide is incorporated in a molecular nuclear structure portion having three molecules of lysine (Lys) peptide-linked thereto and which is easy to synthesize and can inhibit verotoxin is provided.

Abstract translation: 针对的筛选方法 （1）通过引入突变来指定受体结合位点，和（2）通过与野生型亚基结合的肽基序与肽之间的对比来指定基于氨基酸选择比的结合位点特异性肽基序 根据肽文库方法结合到结合位点功能缺陷突变体的基序。 筛选受体结合部分具有亚基结构的毒素的肽。 因此，提供了STX2抑制肽，其中STX2抑制肽被结合到具有三分子赖氨酸（Lys）肽的分子核结构部分中，并且易于合成并且可以抑制verotoxin。

公开(公告)号：US20150192590A1

公开(公告)日：2015-07-09

申请号：US14422055

申请日：2013-08-13

Applicant: Japan Science and Technology Agency

Inventor： Mikiko SODEOKA ,  Jun ANDO ,  Miwako ASANUMA ,  Kosuke DODO ,  Katsumasa FUJITA

IPC: G01N33/68 ,  G01N33/58

CPC classification number: G01N33/6845 ,  C12N9/6472 ,  C12Y304/22001 ,  G01N21/65 ,  G01N21/658 ,  G01N27/44726 ,  G01N30/7233 ,  G01N30/74 ,  G01N30/78 ,  G01N33/587 ,  G01N2570/00 ,  H01J49/004 ,  H01J49/0418

Abstract: The present invention provides an apparatus having a sample separation unit, a Raman spectroscopy unit, and a mass spectrometry unit. The present invention further provides a method for specifying a biomolecule and a method for identifying the binding site of the biomolecule and the low-molecular-weight compound, comprising a combination of Raman spectroscopy and mass spectrometry. The present invention further provides a surface-enhanced Raman spectroscopy method with improved sensitivity.

Abstract translation: 本发明提供一种具有样品分离单元，拉曼光谱单元和质谱分析单元的装置。 本发明还提供了用于确定生物分子的方法和用于鉴定生物分子和低分子量化合物的结合位点的方法，其包括拉曼光谱和质谱联用。 本发明还提供了具有改进的灵敏度的表面增强拉曼光谱法。

公开(公告)号：US20150131906A1

公开(公告)日：2015-05-14

申请号：US14400440

申请日：2013-05-13

Applicant: National Institute of Japan Science and Technology Agency

Inventor： Hitoshi Arai ,  Shinobu Arai

IPC: G06T5/00 ,  G06T5/20

CPC classification number: G06T5/003 ,  G06T5/002 ,  G06T5/10 ,  G06T5/20 ,  G06T7/13 ,  G06T7/168 ,  G06T2207/10024 ,  G06T2207/20016 ,  G06T2207/20024 ,  G06T2207/20064 ,  G06T2207/20182

Abstract: When obtaining subband signals by performing multiresolution decomposition on image data using a broad-sense pinwheel framelet or a pinwheel wavelet frame, having a degree, that is a set of an approximate filter with no orientation and a plurality of detail filters with respective orientations, and acquiring processed image data by the subband signals in a decomposition phase of the multiresolution decomposition, or processed image data that has been reconstructed into an image by summing the subband signals in a synthesis phase of the multiresolution decomposition, the present invention performs attenuation or amplification of the subband signals in the decomposition phase of the multiresolution decomposition that correspond to at least one of the filters.

Abstract translation: 通过使用具有一定程度的广义感知风车框架或风轮小波框架对图像数据进行多分辨率分解来获得子带信号，即具有不定向的近似滤波器的集合和具有各个取向的多个细节滤波器，以及 本发明通过在多分辨率分解的分解阶段中通过子带信号获取处理后的图像数据，或者通过在多分辨率分解的合成阶段中对子带信号进行求和而将其重构为图像的处理图像数据进行衰减或放大 多分辨率分解的分解阶段中的子带信号对应于至少一个滤波器。

公开(公告)号：US20150102340A1

公开(公告)日：2015-04-16

申请号：US14382457

申请日：2013-02-28

Applicant: JAPAN SCIENCE AND TECHNOLOGY AGENCY

Inventor： Tatsuya Shimoda ,  Jinwang Li

IPC: H01L21/02 ,  H01L29/24

CPC classification number: H01L21/02565 ,  C23C18/1216 ,  C23C18/1233 ,  C23C18/1241 ,  C23C18/1245 ,  C23C18/1279 ,  C23C18/1283 ,  C23C18/1295 ,  H01L21/02381 ,  H01L21/0242 ,  H01L21/02488 ,  H01L21/02592 ,  H01L21/02614 ,  H01L21/02664 ,  H01L21/288 ,  H01L29/247

Abstract: A method of forming a conductive film, comprising the steps of: applying a composition comprising at least one metal compound selected from the group consisting of carboxylate salt, alkoxide, diketonato and nitrosylcarboxylate salt of a metal selected from among copper, palladium, rhodium, ruthenium, iridium, nickel and bismuth and a solvent to a substrate to form a coating film; and supplying a hydrogen radical to the coating film to carry out a hydrogen radical treatment.

Abstract translation: 一种形成导电膜的方法，包括以下步骤：施加包含至少一种金属化合物的组合物，所述金属化合物选自铜，钯，铑，钌中的金属，所述金属化合物选自羧酸盐，醇盐，二酮基和亚硝酰基羧酸盐 ，铱，镍和铋以及溶剂添加到基材上以形成涂膜; 向该涂膜供给氢自由基进行氢根处理。

公开(公告)号：US08999888B2

公开(公告)日：2015-04-07

申请号：US12518581

申请日：2007-12-10

Applicant: Kenichi Ogawa ,  Kenji Henmi

Inventor： Kenichi Ogawa ,  Kenji Henmi

IPC: A01N25/26 ,  A01N37/18 ,  A01N63/00 ,  A01N37/46

CPC classification number: A01H1/04 ,  A01N37/46 ,  A01N63/00 ,  C12N15/8261

Abstract: A plant growth regulator containing glutathione allows increasing harvest index. This provides a technique for specifying a control factor for a plant, thereby effectively controlling germination, growth, anthesis etc. of the plant.

Abstract translation: 含有谷胱甘肽的植物生长调节剂可使收获指数提高。 这提供了一种用于指定植物的控制因子的技术，从而有效地控制植物的发芽，生长，开花等。