公开(公告)号：US08987495B2

公开(公告)日：2015-03-24

申请号：US14023726

申请日：2013-09-11

Applicant: Japan Science and Technology Agency

Inventor： Shu Kobayashi ,  Yasuhiro Yamashita ,  Kazutaka Seki

IPC: C07F9/02 ,  C07F9/40 ,  B01J31/02 ,  B01J31/18 ,  C07B53/00 ,  C07C251/24 ,  C07C271/22 ,  C07D307/52 ,  C07F9/655 ,  C07F9/6553

CPC classification number: C07F9/4056 ,  B01J31/0222 ,  B01J31/0237 ,  B01J31/0251 ,  B01J31/0271 ,  B01J31/1805 ,  B01J2231/346 ,  B01J2531/20 ,  B01J2531/21 ,  B01J2531/22 ,  B01J2531/23 ,  B01J2531/24 ,  B01J2531/25 ,  C07B53/00 ,  C07B2200/07 ,  C07C251/24 ,  C07C271/22 ,  C07C2601/14 ,  C07C2603/18 ,  C07D307/52 ,  C07F9/4006 ,  C07F9/65515 ,  C07F9/655345

Abstract: Provided is an efficient technology for synthesizing diamino acids (diamino acid derivatives). Disclosed is a manufacturing method for diamino acid derivatives wherein the fluorenyl groups of the diamino acid derivative starting materials represented by General Formula [II] or [IV] are removed.

Abstract translation: 提供了合成二氨基酸（二氨基酸衍生物）的有效技术。 公开了通式[II]或[IV]表示的二氨基酸衍生物原料的芴基被除去的二氨基酸衍生物的制造方法。

公开(公告)号：US08986558B2

公开(公告)日：2015-03-24

申请号：US13061252

申请日：2009-08-27

Applicant: Susumu Noda ,  Shigeki Takahashi

Inventor： Susumu Noda ,  Shigeki Takahashi

IPC: H01L21/3065 ,  G02B1/00 ,  B82Y20/00

CPC classification number: G02B1/005 ,  B82Y20/00 ,  H01J2237/3327 ,  H01L21/3065

Abstract: A plasma etching method capable of oblique etching with a high aspect ratio and high uniformity is provided. In the plasma etching method, a base body is etched with a high aspect ratio by the following process: An electric-field control device having an ion-introducing orifice penetrating therethrough in a direction inclined from the normal to the surface of a base body is placed on or above the surface of this base body. Plasma is generated on the surface of the base body on or above which the electric-field control is placed. A potential difference is formed between the plasma and the base body so as to attract ions in the plasma toward the base body.

Abstract translation: 提供了能够以高纵横比和高均匀性进行倾斜蚀刻的等离子体蚀刻方法。 在等离子体蚀刻方法中，通过以下处理以高纵横比来蚀刻基体：具有从基体的法线垂直的方向贯通的离子引入孔的电场控制装置是 放置在该基体的表面上或上方。 在其上放置电场控制的基体的表面上产生等离子体。 在等离子体和基体之间形成电位差，以将等离子体中的离子吸引到基体。

公开(公告)号：US08982451B2

公开(公告)日：2015-03-17

申请号：US14236771

申请日：2012-07-31

Applicant: Hidemi Shigekawa ,  Osamu Takeuchi

Inventor： Hidemi Shigekawa ,  Osamu Takeuchi

IPC: G01N21/55 ,  G01N21/17 ,  B82Y35/00 ,  G01Q60/12

CPC classification number: G01N21/55 ,  B82Y35/00 ,  G01N21/1717 ,  G01N21/636 ,  G01N2021/1719 ,  G01N2021/1725 ,  G01N2021/1789 ,  G01N2021/1791 ,  G01N2201/0697 ,  G01Q60/12 ,  H01J37/244 ,  H01J37/26 ,  H01J2237/24507 ,  H01J2237/24564 ,  H01J2237/2818

Abstract: A pump probe measuring device (1) comprises: an ultrashort optical pulse laser generator (2) for generating a first ultrashort optical pulse train which is a pump light (3a), second and third ultrashort optical pulse trains (3b), (3c) which are probe lights; an optical shutter unit (6) to which the second and the third ultrashort pulse trains (3b), (3c) are introduced; and a detecting unit (20) including an irradiation optical system (8) for directing the pump light (3a), the first probe light (3b) and the second probe light (3c) to a sample (7), a sensor (11) for detecting a probe signal from the sample (7), and a phase-sensitive detecting means (12) connected to the sensor (11). An optical shutter control unit (10) periodically modulates the delay time of the first probe light (3b) and that of the second probe light (3c) with respect to the pump light (3a), and the modulated first and second probe lights (3a), (3b) illuminate the sample (7) alternately to detect the probe signals from the sample (7) by the phase-sensitive detecting means (12) in synchronization with the periodic modulation signal of the delay time.

Abstract translation: 泵探头测量装置（1）包括：超短光脉冲激光发生器（2），用于产生作为泵浦光（3a）的第一超短脉冲串，第二和第三超短脉冲序列（3b），（3c） 探针灯; 引入第二和第三超短脉冲串（3b），（3c）的光学快门单元（6）; 以及检测单元（20），包括用于将泵浦光（3a），第一探测光（3b）和第二探测光（3c）引导到样品（7）的照射光学系统（8），传感器（11） ），用于检测来自所述样品（7）的探针信号;以及相敏检测装置（12），连接到所述传感器（11）。 光学快门控制单元（10）相对于泵浦光（3a）周期性地调制第一探测光（3b）和第二探测光（3c）的延迟时间，以及调制的第一和第二探测光（ 3a），（3b）交替地照射样品（7），以与延迟时间的周期性调制信号同步地由相敏检测装置（12）检测来自采样（7）的探测信号。

公开(公告)号：US08980420B2

公开(公告)日：2015-03-17

申请号：US12920638

申请日：2009-03-02

Applicant: Shinji Yae ,  Tatsuya Hirano ,  Hitoshi Matsuda

Inventor： Shinji Yae ,  Tatsuya Hirano ,  Hitoshi Matsuda

IPC: B32B3/26 ,  B32B3/24 ,  G11B5/858 ,  B82Y30/00 ,  C23C18/16 ,  C23C18/18 ,  G11B5/65 ,  C23C18/54

CPC classification number: G11B5/858 ,  B82Y30/00 ,  C23C18/1619 ,  C23C18/1879 ,  C23C18/54 ,  G11B5/65 ,  Y10T428/12014 ,  Y10T428/12028 ,  Y10T428/24273 ,  Y10T428/249954 ,  Y10T428/24999

Abstract: Proposed are a composite material, wherein non-penetrating pores that are formed in a silicon surface layer are filled up with a metal or the like without leaving any voids by using the plating technique, and a method of producing the composite material. A composite material, which has been packed at a high accuracy, or in other words, in which little voids are left, can be obtained by filling up non-penetrating pores that are formed from a silicon surface (100) substantially with a second metal or an alloy of the second metal (106) with the use of the autocatalytic electroless plating technique wherein a first metal located at the bottom of the non-penetrating pores as described above serves as the starting point.

Abstract translation: 提出了一种复合材料，其中形成在硅表面层中的非穿透孔被金属等填充，而不会通过使用电镀技术而留下任何空隙，以及制造复合材料的方法。 通过填充由基本上具有第二金属的硅表面（100）形成的非穿透孔，可以获得以高精度包装的换句话说，其中留下很少空隙的复合材料 或第二金属（106）的合金与使用如上所述的非穿透孔底部的第一金属作为起始点的自催化化学镀技术。

公开(公告)号：US20140377126A1

公开(公告)日：2014-12-25

申请号：US14344840

申请日：2012-09-13

Applicant: JAPAN SCIENCE AND TECHNOLOGY AGENCY

Inventor： Hiroshi Kitagawa ,  Kohei Kusada

IPC: C30B7/14 ,  H01M4/92 ,  B22F1/00 ,  C30B29/02

CPC classification number: C30B7/14 ,  B01J23/462 ,  B01J35/0013 ,  B01J35/002 ,  B01J35/023 ,  B01J37/0045 ,  B01J37/0072 ,  B01J37/08 ,  B01J37/086 ,  B22F1/0018 ,  B22F1/0044 ,  B22F9/24 ,  B82Y30/00 ,  C22C5/04 ,  C30B29/02 ,  H01M4/92

Abstract: Disclosed are ruthenium nanoparticles having an essentially face-centered cubic structure. Disclosed is a method for producing ruthenium nanoparticles having an essentially face-centered cubic structure. This production method includes a step (i) of maintaining a solution containing ruthenium (III) acetylacetonate, polyvinylpyrrolidone, and triethylene glycol at a temperature of 180° C. or higher.

Abstract translation: 公开了具有基本上为面心立方结构的钌纳米颗粒。 公开了一种制备基本上以面心立方结构的钌纳米颗粒的方法。 该制造方法包括在180℃以上的温度下保持含有乙酰丙酮钌（III），聚乙烯吡咯烷酮和三甘醇的溶液的工序（i）。

公开(公告)号：US20140375317A1

公开(公告)日：2014-12-25

申请号：US14367411

申请日：2012-12-18

Applicant: JAPAN SCIENCE AND TECHNOLOGY AGENCY

Inventor： Susumu Sasaki ,  Tatsuro Yuge ,  Yoshiro Hirayama

IPC: G01R33/50 ,  G01R33/56 ,  G01R33/34

CPC classification number: G01R33/50 ,  G01N24/08 ,  G01R33/34 ,  G01R33/56 ,  H01L22/12

Abstract: In order to provide an NMR imaging device capable of distinguishing substances that cannot be distinguished by T2H, an NMR imaging device (1) according to this invention includes: a probe (3) capable of housing a sample in a static gradient magnetic field; an application portion (5) configured to apply a π pulse having a Larmor frequency corresponding to the static gradient magnetic field at a predetermined position of the sample to the sample in a multiplexed manner at a predetermined time interval; and an image processing portion (7) configured to determine a relaxation time based on a nuclear magnetic resonance signal of the sample, and perform imaging of the relaxation time.

Abstract translation: 为了提供能够区分不能被T2H区分的物质的NMR成像装置，根据本发明的NMR成像装置（1）包括：能够以静态梯度磁场容纳样本的探针（3） 应用部分（5），被配置为应用＆pgr; 脉冲，其具有对应于样本的预定位置处的静态梯度磁场的拉莫尔频率，以预定时间间隔多路复用; 以及图像处理部（7），被配置为基于所述样本的核磁共振信号来确定弛豫时间，并进行所述弛豫时间的成像。

公开(公告)号：US20140370496A1

公开(公告)日：2014-12-18

申请号：US14374116

申请日：2013-01-24

Applicant: Japan Science and Technology Agency

Inventor： Taketoshi Mizutani ,  Aya Ishizaka

IPC: C12Q1/70

CPC classification number: C12Q1/703 ,  C12Q1/6855 ,  C12Q2600/158

Abstract: The present invention provides an oligonucleotide for HIV detection including a base sequence which is at least 80% identical to a base sequence composed of 10 or more continuous bases in a base sequence represented by SEQ ID NO. 1 or 6, and an HIV detection kit and an HIV detection method that uses the oligonucleotide for HIV detection.

Abstract translation: 本发明提供了用于HIV检测的寡核苷酸，其包括与由SEQ ID NO：1所示的碱基序列中的10个或更多个连续碱基组成的碱基序列至少80％相同的碱基序列。 1或6，以及使用该寡核苷酸进行HIV检测的HIV检测试剂盒和HIV检测方法。

公开(公告)号：US20140367674A1

公开(公告)日：2014-12-18

申请号：US14344072

申请日：2012-11-15

Applicant: JAPAN SCIENCE AND TECHNOLOGY AGENCY

Inventor： Tatsuya Shimoda ,  Jinwang Li

IPC: H01L21/02 ,  H01L29/24

CPC classification number: H01L21/02565 ,  H01B1/08 ,  H01L21/02614 ,  H01L29/247 ,  H01L29/7869

Abstract: A process for forming an amorphous conductive oxide film, comprising the steps of: applying a composition which comprises (A1) a×y parts by mole of at least one metal compound selected from the group consisting of carboxylate salts, alkoxides, diketonates, nitrate salts and halides of a metal selected from among lanthanoids (excluding cerium), (A2) a×(1−y) parts by mole of at least one metal compound selected from the group consisting of carboxylate salts, alkoxides, diketonates, nitrate salts and halides of a metal selected from among lead, bismuth, nickel, palladium, copper and silver, (B) 1 part by mole of at least one metal compound selected from the group consisting of carboxylate salts, alkoxides, diketonates, nitrate salts, halides, nitrosylcarboxylate salts, nitrosylnitrate salts, nitrosylsulfate salts and nitrosylhalides of a metal selected from among ruthenium, iridium, rhodium and cobalt, and (C) a solvent containing at least one selected from the group consisting of carboxylic acids, alcohols, ketones, diols and glycol ethers to a substrate to form a coating film; and heating the coating film in an oxidizing atmosphere.

Abstract translation: 一种形成非晶导电氧化物膜的方法，包括以下步骤：施加一种组合物，其包含（A1）a×y份摩尔选自羧酸盐，醇盐，二酮盐，硝酸盐的至少一种金属化合物 和选自镧系元素（不包括铈）的金属的卤化物，（A2）a×（1-y）摩尔的至少一种选自羧酸盐，醇盐，二酮盐，硝酸盐和卤化物的金属化合物 选自铅，铋，镍，钯，铜和银的金属，（B）1份（摩尔）选自羧酸盐，醇盐，二酮化物，硝酸盐，卤化物，亚硝酰基羧酸盐中的至少一种金属化合物 选自钌，铱，铑和钴的金属的盐，亚硝基硝酸盐，亚硝酰基硫酸盐和亚硝酰卤，和（C）含有选自汽车 酚醛酸，醇，酮，二醇和二醇醚，形成一个涂膜; 并在氧化气氛中加热涂膜。

公开(公告)号：US20140355630A1

公开(公告)日：2014-12-04

申请号：US14370997

申请日：2013-03-08

Applicant: Japan Science and Technology Agency

Inventor： Yasushi Takahashi ,  Yoshitaka Inui ,  Takashi Asano ,  Susumu Noda ,  Masahiro Chihara

IPC: G02B6/122 ,  G02B6/13 ,  H01S3/30

CPC classification number: G02B6/1225 ,  G02B6/13 ,  G02B6/136 ,  G02F1/025 ,  G02F1/365 ,  G02F2202/10 ,  G02F2202/32 ,  G02F2203/15 ,  H01S3/0635 ,  H01S3/0637 ,  H01S3/09415 ,  H01S3/30

Abstract: A Raman scattered light enhancement device including a waveguide provided in a photonic crystal (20) made of a semiconductor substrate in which holes (20a) are formed. The waveguide has resonant modes with respect to incident light at a plurality of frequencies. A difference in frequency between one resonant mode and another resonant mode is equal to a Raman shift frequency of the semiconductor substrate. A waveguide forming direction with respect to a crystal plane orientation of the semiconductor substrate is set so as to maximize a Raman transition probability which is represented by electromagnetic field distribution of the two resonant modes and a Raman tensor of the semiconductor substrate.

Abstract translation: 一种拉曼散射光增强装置，包括设置在其中形成有孔（20a）的半导体衬底的光子晶体（20）中的波导。 波导具有相对于多个频率的入射光的谐振模式。 一个谐振模式和另一谐振模式之间的频率差等于半导体衬底的拉曼移位频率。 设置相对于半导体衬底的晶面取向的波导形成方向，以使由两个谐振模式的电磁场分布和半导体衬底的拉曼张量表示的拉曼转移概率最大化。

公开(公告)号：US08891089B2

公开(公告)日：2014-11-18

申请号：US12922542

申请日：2009-02-27

Applicant: Eriko Watanabe ,  Kashiko Kodate

Inventor： Eriko Watanabe ,  Kashiko Kodate

IPC: G01B9/021 ,  G01N21/45 ,  G01J9/02 ,  G03H1/00 ,  G03H1/22 ,  G03H1/04

CPC classification number: G03H1/0005 ,  G01J9/02 ,  G01N21/453 ,  G03H1/041 ,  G03H1/2286 ,  G03H2001/0038 ,  G03H2001/0066 ,  G03H2001/0072 ,  G03H2001/0413 ,  G03H2001/0428 ,  G03H2001/2244 ,  G03H2210/11 ,  G03H2210/12 ,  G03H2223/12 ,  G03H2223/13 ,  G03H2223/55

Abstract: An object of the invention is to provide a phase object identification device and method which can identify a phase object in a completely different manner from conventional methods for observing or measuring a phase object.A phase object identification device 1 for identifying a phase object for changing the phase of light includes a light source 2, a sample holding means 3 for holding a phase object 31 to be identified, a holographic recording medium 4 on which a hologram 41 formed by interference between reference light 25 and object light 24 that is phase-modulated by a known phase object 32 is recorded, and a light detector 5, a phase of light 21 emitted from the light source is modulated by the phase object to be identified to generate sample light 22, the hologram of the holographic recording medium is irradiated with the sample light, reproduced light 23 reproduced from the hologram of the holographic recording medium is detected by the light detector.

Abstract translation: 本发明的目的是提供一种相位对象识别装置和方法，其能够以与用于观察或测量相位对象的常规方法完全不同的方式识别相位对象。 用于识别用于改变相位相位的相位对象的相位对象识别装置1包括光源2，用于保持要识别的相位对象31的样本保持装置3，全息图记录介质4，全息图41由 记录参考光25与已知相位物体32进行相位调制的物体光24之间的干涉，光检测器5从光源发射的相位相位被相位物体调制以产生 采样光22用全息记录介质的全息图照射样品光，由全息记录介质的全息图重现的再现光23由光检测器检测。