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1. 发明授权

US08252239B2 Liquid-liquid extraction system 失效
标题翻译：液 - 液萃取系统
公开(公告)号：US08252239B2
公开(公告)日：2012-08-28
申请号：US12783924
申请日：2010-05-20
申请人： Mami Hakari , Shigenori Togashi , Yasuhiko Sasaki
发明人： Mami Hakari , Shigenori Togashi , Yasuhiko Sasaki
IPC分类号： B06B1/20 , B01D11/00 , B01D17/02
CPC分类号： B01D11/04 , B01D11/0265 , B01D11/0496 , B01F3/0819 , B01F11/0283
摘要： The invention aims to reduce the processing time of liquid-liquid extraction, reduce variations in the amount of extraction of a solute, and improve the extraction efficiency. Provided are a container adapted to contain a continuous phase and a dispersion phase that are mutually immiscible liquids, and a solute dissolved in at least one of the continuous and dispersion phases, a water tank accommodating therein the container and containing water around the container, an emulsification ultrasonic oscillation source disposed outside the water tank, on a plane substantially parallel with the interface between the continuous and dispersion phases, a separation ultrasonic oscillation source disposed outside the water tank, an ultrasonic-oscillation-source driving circuit configured to drive the emulsification ultrasonic oscillation source and the separation ultrasonic oscillation source, and a control unit configured to control the ultrasonic-oscillation-source driving circuit such that it sequentially drives the emulsification ultrasonic oscillation source and the separation ultrasonic oscillation source.
摘要翻译：本发明旨在减少液 - 液萃取的处理时间，减少溶质萃取量的变化，提高萃取效率。提供一种容器，其适于容纳相互不混溶的液体的连续相和分散相，以及溶解在至少一个连续分散相中的溶质，在其中容纳容器并在容器周围容纳水的水箱，乳化超声波振荡源设置在水箱外部，与基本上平行于连续分散相之间的界面的平面上，设置在水箱外部的分离超声波振荡源，构造成驱动乳化超声波的超声波振荡源驱动电路振荡源和分离超声波振荡源，以及控制单元，被配置为控制超声波振荡源驱动电路，使得其依次驱动乳化超声波振荡源和分离超声波振荡源。

2. 发明申请

US20100296976A1 LIQUID-LIQUID EXTRACTION SYSTEM 失效
标题翻译：液体萃取系统
公开(公告)号：US20100296976A1
公开(公告)日：2010-11-25
申请号：US12783924
申请日：2010-05-20
申请人： Mami HAKARI , Shigenori Togashi , Yasuhiko Sasaki
发明人： Mami HAKARI , Shigenori Togashi , Yasuhiko Sasaki
IPC分类号： B06B1/20 , B01D11/00 , B01D17/02
CPC分类号： B01D11/04 , B01D11/0265 , B01D11/0496 , B01F3/0819 , B01F11/0283
摘要： The invention aims to reduce the processing time of liquid-liquid extraction, reduce variations in the amount of extraction of a solute, and improve the extraction efficiency. Provided are a container adapted to contain a continuous phase and a dispersion phase that are mutually immiscible liquids, and a solute dissolved in at least one of the continuous and dispersion phases, a water tank accommodating therein the container and containing water around the container, an emulsification ultrasonic oscillation source disposed outside the water tank, on a plane substantially parallel with the interface between the continuous and dispersion phases, a separation ultrasonic oscillation source disposed outside the water tank, an ultrasonic-oscillation-source driving circuit configured to drive the emulsification ultrasonic oscillation source and the separation ultrasonic oscillation source, and a control unit configured to control the ultrasonic-oscillation-source driving circuit such that it sequentially drives the emulsification ultrasonic oscillation source and the separation ultrasonic oscillation source.
摘要翻译：本发明旨在减少液 - 液萃取的处理时间，减少溶质萃取量的变化，提高萃取效率。提供一种容器，其适于容纳相互不混溶的液体的连续相和分散相，以及溶解在至少一个连续分散相中的溶质，在其中容纳容器并在容器周围容纳水的水箱，乳化超声波振荡源设置在水箱外部，与基本上平行于连续分散相之间的界面的平面上，设置在水箱外部的分离超声波振荡源，构造成驱动乳化超声波的超声波振荡源驱动电路振荡源和分离超声波振荡源，以及控制单元，被配置为控制超声波振荡源驱动电路，使得其依次驱动乳化超声波振荡源和分离超声波振荡源。

3. 发明申请

US20060263243A1 Molecular interaction detector and molecule recovery device using the same 审中-公开
标题翻译：分子相互作用检测器和分子回收装置使用相同
公开(公告)号：US20060263243A1
公开(公告)日：2006-11-23
申请号：US11437701
申请日：2006-05-22
申请人： Mami Hakari , Tetsuro Miyamoto , Shigenori Togashi
发明人： Mami Hakari , Tetsuro Miyamoto , Shigenori Togashi
IPC分类号： G01N31/22
CPC分类号： G01N21/31
摘要： In a molecular interaction detector, a noble-metal free-electron thin film is formed on a substrate. Styrene-made nanoparticles are adsorbed onto the thin film surface. Another noble-metal free-electron thin film is formed on upper-half surfaces of the nanoparticles and is modified by an organic linker molecule. The organic linker molecule has a linear or branched chemical structure including a functional group capable of being fixed to the surface of the noble-metal free-electron thin film with a linear chain made of 1 to 5 atoms. A detergent is used in a mobile phase. Deposition of materials having no relation with the measurement onto a sensor can be avoided in the molecular interaction detector.
摘要翻译：在分子相互作用检测器中，在基板上形成贵金属自由电子薄膜。苯乙烯制造的纳米颗粒被吸附到薄膜表面上。另外的贵金属自由电子薄膜形成在纳米颗粒的上半部表面，并被有机连接分子修饰。有机连接分子具有直链或支链化学结构，其包括能够用1-5个原子的直链固定在贵金属自由电子薄膜的表面上的官能团。在流动相中使用洗涤剂。可以在分子相互作用检测器中避免将与测量无关的材料沉积到传感器上。

4. 发明申请

US20060269966A1 Optical biosensor for biomolecular interaction analysis 失效
标题翻译：光生物传感器用于生物分子相互作用分析
公开(公告)号：US20060269966A1
公开(公告)日：2006-11-30
申请号：US11441076
申请日：2006-05-26
申请人： Tetsuro Miyamoto , Mami Hakari , Shigenori Togashi
发明人： Tetsuro Miyamoto , Mami Hakari , Shigenori Togashi
IPC分类号： G01N33/53 , C12M1/34
CPC分类号： G01N21/554 , G01N21/274 , G01N21/314 , G01N2021/258 , G01N2021/3148
摘要： Biomolecular and other interactions are analyzed with a simpler construction. A biotic sample is fixed to noble metal nanoparticles, and light is irradiated from a light source to the noble metal nanoparticles through an optical fiber. Light obtained after reflection of the irradiated light by the noble metal nanoparticles is introduced to one or more optical detecting units through another optical fiber. The optical detecting unit(s) separately measure the intensity of the input light in a second band including a maximum absorption wavelength, a first band covering a longer wavelength range than the range covered by the second band, and a third band covering a shorter wavelength range than the range covered by the second band.
摘要翻译：用更简单的结构分析生物分子和其他相互作用。将生物样品固定在贵金属纳米粒子上，通过光纤将光从光源照射到贵金属纳米粒子上。通过贵金属纳米颗粒反射照射光后获得的光通过另一光纤被引入一个或多个光学检测单元。光学检测单元分别测量包括最大吸收波长的第二波段中的输入光的强度，覆盖比由第二波段覆盖的范围更长的波长范围的第一波段和覆盖较短波长的第三波段范围超过第二频带覆盖的范围。

5. 发明申请

US20070231881A1 Biomolecular interaction analyzer 审中-公开
标题翻译：生物分子相互作用分析仪
公开(公告)号：US20070231881A1
公开(公告)日：2007-10-04
申请号：US11528518
申请日：2006-09-28
申请人： Tetsuro Miyamoto , Mami Hakari , Shigenori Togashi
发明人： Tetsuro Miyamoto , Mami Hakari , Shigenori Togashi
IPC分类号： C12M1/34 , G06T7/40
CPC分类号： G01N21/554 , B01L3/0293 , B01L3/5025 , B01L3/502715 , B01L2300/0816 , B01L2300/0822 , B01L2400/0487
摘要： Obtained is a biomolecular interaction analyzer which is capable of simultaneously measuring a large number of many kinds of samples. The biomolecular interaction analyzer is an analyzer for measuring biomolecular interactions, which includes a measurement chip and a color CCD array. The measurement chip includes a plurality of measurement areas in each of which a fine particle sensor coated with a noble metal is formed. In the color CCD array, two-dimensionally arrayed light receiving elements respectively for measuring optical properties of the measurement areas are utilized.
摘要翻译：获得的是能够同时测量大量多种样品的生物分子相互作用分析仪。生物分子相互作用分析仪是用于测量生物分子相互作用的分析仪，其包括测量芯片和彩色CCD阵列。测量芯片包括多个测量区域，每个测量区域中形成有涂覆有贵金属的微粒传感器。在彩色CCD阵列中，利用分别用于测量测量区域的光学特性的二维排列的光接收元件。

6. 发明授权

US07754153B2 Optical biosensor for biomolecular interaction analysis 失效
标题翻译：光生物传感器用于生物分子相互作用分析
公开(公告)号：US07754153B2
公开(公告)日：2010-07-13
申请号：US11441076
申请日：2006-05-26
申请人： Tetsuro Miyamoto , Mami Hakari , Shigenori Togashi
发明人： Tetsuro Miyamoto , Mami Hakari , Shigenori Togashi
IPC分类号： G01N21/00 , G01N21/62 , G01N21/63
CPC分类号： G01N21/554 , G01N21/274 , G01N21/314 , G01N2021/258 , G01N2021/3148
摘要： Biomolecular and other interactions are analyzed with a simpler construction. A biotic sample is fixed to noble metal nanoparticles, and light is irradiated from a light source to the noble metal nanoparticles through an optical fiber. Light obtained after reflection of the irradiated light by the noble metal nanoparticles is introduced to one or more optical detecting units through another optical fiber. The optical detecting unit(s) separately measure the intensity of the input light in a second band including a maximum absorption wavelength, a first band covering a longer wavelength range than the range covered by the second band, and a third band covering a shorter wavelength range than the range covered by the second band.
摘要翻译：用更简单的结构分析生物分子和其他相互作用。将生物样品固定在贵金属纳米粒子上，通过光纤将光从光源照射到贵金属纳米粒子上。通过贵金属纳米颗粒反射照射光后获得的光通过另一光纤被引入一个或多个光学检测单元。光学检测单元分别测量包括最大吸收波长的第二波段中的输入光的强度，覆盖比由第二波段覆盖的范围更长的波长范围的第一波段和覆盖较短波长的第三波段范围超过第二频带覆盖的范围。

7. 发明申请

US20080098092A1 MICROORGANISM SEPARATION SYSTEM 审中-公开
标题翻译：微生物分离系统
公开(公告)号：US20080098092A1
公开(公告)日：2008-04-24
申请号：US11755944
申请日：2007-05-31
申请人： Tadashi Sano , Yasuhiko Sasaki , Hajime Ikuta , Kazuichi Isaka , Tatsuo Sumino , Shigenori Togashi , Tetsuro Miyamoto
发明人： Tadashi Sano , Yasuhiko Sasaki , Hajime Ikuta , Kazuichi Isaka , Tatsuo Sumino , Shigenori Togashi , Tetsuro Miyamoto
IPC分类号： G06F15/16 , C12M1/00
CPC分类号： C12M47/02 , C12M47/04
摘要： A microorganism separation system comprising a sample solution container 34 containing microorganisms, a separator 1, and a receiver 47, designed to separate microorganisms from the sample solution; further comprising a microorganism detection sensor and a plate 49 which has a plurality of receivers 47 connected to each other and an identification indicator, wherein when the microorganism detection sensor judges that a microorganism has passed, supply of the sample solution is stopped, the detected microorganism is discharged together with the sample solution, and then the solution starts to be injected into the receiver; and, the number of times microorganisms are detected during the time period from the start of the injection to the end is recognized as separation quantity; and then as separation information, the separation quantity, number for a receiver 47 into which a microorganism was injected for each identification indicator, signal waveform sent from the microorganism detection sensor at the separation, date and temperature are stored.
摘要翻译：一种微生物分离系统，包括含有微生物的样品溶液容器34，分离器1和接收器47，设计用于将微生物与样品溶液分离; 进一步包括微生物检测传感器和板49，其具有彼此连接的多个接收器47和识别指示器，其中当微生物检测传感器判断微生物已经通过时，停止供应样品溶液，检测到的微生物与样品溶液一起放出，然后溶液开始注入接收器; 并且在从注射开始到结束的时间段期间检测到微生物的次数被识别为分离量; 然后作为分离信息，存储分离量，针对每个识别指示符注入微生物的接收器47的数量，在分离，日期和温度从微生物检测传感器发送的信号波形。

8. 发明申请

US20060008821A1 Biomaterial inspection chip 审中-公开
标题翻译：生物材料检验芯片
公开(公告)号：US20060008821A1
公开(公告)日：2006-01-12
申请号：US11094188
申请日：2005-03-31
申请人： Toru Inaba , Yasuhiko Sasaki , Shigenori Togashi , Hiroshi Kishida , Takashi Shimizu
发明人： Toru Inaba , Yasuhiko Sasaki , Shigenori Togashi , Hiroshi Kishida , Takashi Shimizu
IPC分类号： C12Q1/68 , C12M1/34
CPC分类号： B01L9/527 , B01J2219/00466 , B01J2219/00468 , B01J2219/005 , B01J2219/00576 , B01J2219/00657 , B01J2219/00722 , B01J2219/00725 , B01L3/5027 , B01L2200/0647 , B01L2300/0636 , B01L2300/0819 , B01L2300/0883
摘要： Within an inside of a bead chip forming a reactor flow pass therein, rinsing liquid flow passes are also provided in one body. For the purpose of promoting reaction upon a bead array, a turbulence generator or an flow separation stop guide is provided within the reactor flow pass, in which the beads are received. The bead chip is made of a PDMS (Polydimethylsiloxane: (C2H6SiO)n), thereby enabling the reactor flow pass and the rinsing liquid flow passes to be formed freely in the configurations thereof.
摘要翻译：在形成反应器流动通道的珠粒的内部，冲洗液体流动通道也设置在一体中。为了促进珠粒阵列上的反应，在反应器流动通道内提供湍流发生器或流动分离停止引导件，其中容纳珠子。珠芯片由PDMS（聚二甲基硅氧烷：（C 2 H 6 SiO）SiO）N）制成，从而使反应器流过，冲洗液流在其结构中自由形成。

9. 发明授权

US09433883B2 Device and method for collecting airborne microorganisms 有权
标题翻译：用于收集空气微生物的装置和方法
公开(公告)号：US09433883B2
公开(公告)日：2016-09-06
申请号：US13985708
申请日：2011-02-22
申请人： Kei Takenaka , Yasuhiko Sasaki , Shigenori Togashi
发明人： Kei Takenaka , Yasuhiko Sasaki , Shigenori Togashi
IPC分类号： G01N1/24 , B01D45/08 , G01N1/22
CPC分类号： B01D45/08 , G01N1/2208 , G01N1/2273 , G01N2001/245
摘要： The present invention provides an impaction-based microorganism collecting device in which microorganisms are captured by the capture surface of a collection plate. The microorganism collecting device is designed to reduce the influence of the lateral wind flowing over the perforated plate having multiple nozzles and also prevent warpage of the perforated plate.Multiple air vents are formed around the circumference of the capture surface and through the capture surface so that air that has flowed through the nozzles of the perforated plate onto the capture surface can be discharged. This allows the air to flow in multiple directions over the capture surface, thereby reducing the speed of the air and increasing the microorganism capture rate.
摘要翻译：多个通风孔形成在捕获表面的周边周围并通过捕获表面，使得已经流过穿孔板的喷嘴的空气能够被排放到捕获表面上。这允许空气在捕获表面上沿多个方向流动，从而降低空气的速度并增加微生物捕获率。

10. 发明申请

US20130319239A1 Device and Method for Collecting Airborne Microorganisms 有权
标题翻译：装载和收集空气微生物的方法
公开(公告)号：US20130319239A1
公开(公告)日：2013-12-05
申请号：US13985708
申请日：2011-02-22
申请人： Kei Takenaka , Yasuhiko Sasaki , Shigenori Togashi
发明人： Kei Takenaka , Yasuhiko Sasaki , Shigenori Togashi
IPC分类号： B01D45/08
CPC分类号： B01D45/08 , G01N1/2208 , G01N1/2273 , G01N2001/245
摘要： The present invention provides an impaction-based microorganism collecting device in which microorganisms are captured by the capture surface of a collection plate. The microorganism collecting device is designed to reduce the influence of the lateral wind flowing over the perforated plate having multiple nozzles and also prevent warpage of the perforated plate.Multiple air vents are formed around the circumference of the capture surface and through the capture surface so that air that has flowed through the nozzles of the perforated plate onto the capture surface can be discharged. This allows the air to flow in multiple directions over the capture surface, thereby reducing the speed of the air and increasing the microorganism capture rate.
摘要翻译：本发明提供了一种基于冲击的微生物收集装置，其中微生物被捕集板的捕获表面捕获。微生物收集装置被设计成减少在具有多个喷嘴的多孔板上流动的横向风的影响，并且还防止多孔板的翘曲。多个通风孔形成在捕获表面的周边周围并通过捕获表面，使得已经流过穿孔板的喷嘴的空气能够被排放到捕获表面上。这允许空气在捕获表面上沿多个方向流动，从而降低空气的速度并增加微生物捕获率。

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