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公开(公告)号:US09212994B2
公开(公告)日:2015-12-15
申请号:US13348495
申请日:2012-01-11
Applicant: George Maltezos , John Kim Lee , Axel Scherer , Emil Kartalov
Inventor: George Maltezos , John Kim Lee , Axel Scherer , Emil Kartalov
CPC classification number: G01N21/6456 , G01N21/6452 , Y10T137/2224
Abstract: A microfluidic filter is disclosed. The filter can be used with onchip fluid filtration such as whole blood filtration for microfluidic blood analysis. The filter is able to filter the necessary volume of fluid and in particular blood in an acceptable time frame.
Abstract translation: 公开了一种微流体过滤器。 过滤器可用于片上流体过滤,如全血过滤用于微流体血液分析。 过滤器能够在可接受的时间范围内过滤所需体积的流体,特别是血液。
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公开(公告)号:US09103786B2
公开(公告)日:2015-08-11
申请号:US13457199
申请日:2012-04-26
Applicant: George Maltezos , Jeremy Witzens , Axel Scherer
Inventor: George Maltezos , Jeremy Witzens , Axel Scherer
CPC classification number: G01N21/6428 , B01L3/50273 , B01L3/502738 , B01L2200/026 , B01L2200/027 , B01L2200/0605 , B01L2200/0689 , B01L2200/10 , B01L2200/141 , B01L2200/142 , B01L2200/143 , B01L2200/146 , B01L2200/148 , B01L2200/16 , B01L2300/042 , B01L2300/0654 , B01L2300/0819 , B01L2300/14 , B01L2400/0478 , B01L2400/0481 , B01L2400/0487 , B01L2400/0638 , B01L2400/0655 , B01L2400/0683 , B81C1/00119 , G01N21/03 , G01N21/0332 , G01N21/05 , G01N21/6456 , G01N2021/0321 , G01N2021/0325 , G01N2021/0346 , G01N2021/0364 , G01N2201/024 , Y10T137/0318 , Y10T137/0396 , Y10T137/1714 , Y10T137/2202 , Y10T137/8811
Abstract: An apparatus for analysis of a sample and in particular of a biological sample. The apparatus contains a microfluidic chip with dies, adapted to be selectively activated or deactivated by presence of target molecules in the biological sample. The apparatus further contains a light source to emit light for illumination of the microfluidic chip and an optical filter to allow passage of the light from the dies once activated or deactivated by the presence of the target molecules. A method for pressurizing a microfluidic chip is also disclosed, where a chamber is provided, the chamber is connected with the microfluidic chip and pressure is applied to the chamber.
Abstract translation: 用于分析样品,特别是生物样品的装置。 该装置包含具有管芯的微流体芯片,适于通过生物样品中目标分子的存在而被选择性地活化或失活。 该装置还包含用于发射微流芯片照明的光源和滤光器,以允许通过靶分子的存在激活或去激活来自模具的光的通过。 还公开了一种用于对微流体芯片加压的方法,其中设置有腔室,腔室与微流体芯片连接,并且将压力施加到腔室。
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公开(公告)号:US09041938B2
公开(公告)日:2015-05-26
申请号:US13344550
申请日:2012-01-05
Applicant: Guoan Zheng , Xiquan Cui , Xin Heng , Changhuei Yang , Axel Scherer
Inventor: Guoan Zheng , Xiquan Cui , Xin Heng , Changhuei Yang , Axel Scherer
CPC classification number: G02B6/1226 , B82Y20/00 , G01N21/554 , G02B5/008 , G02B21/0032 , G02B21/004 , G02B21/0056 , G02B21/0068 , G02B21/14 , G02B27/52
Abstract: A surface wave assisted system having an aperture layer with a surface and an aperture, and a plurality of grooves around the aperture. The plurality of grooves is configured to generate an optical transfer function at the aperture by inducing a surface wave for interfering with transmission of light of a range of spatial frequency.
Abstract translation: 表面波辅助系统,具有具有表面和孔径的孔层,以及围绕孔的多个凹槽。 多个槽被配置为通过诱导表面波来干扰空间频率范围的光的透射来在孔处产生光学传递函数。
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4.发明授权Methods for fabricating self-aligning semicondutor heterostructures using silicon nanowires 有权使用硅纳米线制造自对准半导体异质结构的方法公开(公告)号:US08809093B2
公开(公告)日:2014-08-19
申请号:US12949758
申请日:2010-11-18
Applicant: Andrew P. Homyk , Michael D. Henry , Axel Scherer , Sameer Walavalkar
Inventor: Andrew P. Homyk , Michael D. Henry , Axel Scherer , Sameer Walavalkar
IPC: H01L21/20 , B82Y10/00 , H01L29/06 , H01L29/775 , H01L29/66
CPC classification number: H01L31/035227 , B82Y10/00 , B82Y40/00 , H01L21/02381 , H01L21/0243 , H01L21/02521 , H01L21/0259 , H01L21/02639 , H01L29/0665 , H01L29/0676 , H01L29/127 , H01L29/267 , H01L29/413 , H01L29/66439 , H01L29/775 , H01L33/06 , Y10S977/762
Abstract: Methods for fabricating self-aligned heterostructures and semiconductor arrangements using silicon nanowires are described.
Abstract translation: 描述了使用硅纳米线制造自对准异质结构和半导体布置的方法。
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公开(公告)号:US08574513B2
公开(公告)日:2013-11-05
申请号:US13448810
申请日:2012-04-17
Applicant: Samson Chen , Aditya Rajagopal , Axel Scherer
Inventor: Samson Chen , Aditya Rajagopal , Axel Scherer
IPC: G01N15/06
CPC classification number: H05K3/10 , B01L3/502707 , B01L3/502715 , B01L2300/0645 , B01L2300/0816 , B01L2300/0864 , B01L2300/0867 , H01L23/473 , H01L2924/0002 , H05K1/0272 , H05K3/284 , H05K2201/10189 , H05K2203/1327 , Y10T29/49 , Y10T29/49002 , Y10T29/49155 , Y10T29/49165 , Y10T137/85938 , Y10T436/11 , Y10T436/25 , Y10T436/2575 , H01L2924/00
Abstract: A printed circuit board structure is coated with an encapsulant within which microfluidic channels have been formed. The microfluidic channels are formed by soldering fluidic connections to metal traces on a surface of the printed circuit board structure prior to encapsulation. The metal traces are removed by etching after encapsulation to form microchannels within the encapsulant.
Abstract translation: 印刷电路板结构涂覆有已经形成微流体通道的密封剂。 在封装之前,通过将流体连接焊接到印刷电路板结构的表面上的金属迹线来形成微流体通道。 在封装后通过蚀刻去除金属迹线,以在密封剂内形成微通道。
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Patent Agency Ranking
公开(公告)号:US08550119B2
公开(公告)日:2013-10-08
申请号:US11932552
申请日:2007-10-31
Applicant: Marc A. Unger , Hou-Pu Chou , Todd A. Thorsen , Axel Scherer , Stephen R. Quake , Markus Enzelberger , Mark L. Adams , Carl L. Hansen
Inventor: Marc A. Unger , Hou-Pu Chou , Todd A. Thorsen , Axel Scherer , Stephen R. Quake , Markus Enzelberger , Mark L. Adams , Carl L. Hansen
IPC: F15C3/00 , F16K31/126
CPC classification number: F15C3/00 , B01J2219/00355 , B01J2219/00378 , B01J2219/00396 , B01J2219/00398 , B01J2219/00439 , B01J2219/005 , B01J2219/00527 , B01J2219/00605 , B01J2219/00659 , B01J2219/00707 , B01J2219/00722 , B01J2219/00725 , B01L3/502707 , B01L3/50273 , B01L3/502738 , B01L7/54 , B01L9/527 , B01L2200/025 , B01L2200/027 , B01L2200/0605 , B01L2200/10 , B01L2300/0681 , B01L2300/0861 , B01L2300/0887 , B01L2300/123 , B01L2300/14 , B01L2300/18 , B01L2400/0481 , B01L2400/0655 , B01L2400/0688 , B32B2037/1081 , F04B19/006 , F04B43/043 , F16K99/0001 , F16K99/0026 , F16K99/0059 , F16K2099/0074 , F16K2099/0076 , F16K2099/0078 , F16K2099/008 , F16K2099/0084 , Y10T137/2202 , Y10T137/2224 , Y10T137/87885
Abstract: A method of fabricating an elastomeric structure, comprising: forming a first elastomeric layer on top of a first micromachined mold, the first micromachined mold having a first raised protrusion which forms a first recess extending along a bottom surface of the first elastomeric layer; forming a second elastomeric layer on top of a second micromachined mold, the second micromachined mold having a second raised protrusion which forms a second recess extending along a bottom surface of the second elastomeric layer; bonding the bottom surface of the second elastomeric layer onto a top surface of the first elastomeric layer such that a control channel forms in the second recess between the first and second elastomeric layers; and positioning the first elastomeric layer on top of a planar substrate such that a flow channel forms in the first recess between the first elastomeric layer and the planar substrate.
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公开(公告)号:US20130164754A1
公开(公告)日:2013-06-27
申请号:US13407644
申请日:2012-02-28
Applicant: Imran R. MALIK , Axel SCHERER
Inventor: Imran R. MALIK , Axel SCHERER
CPC classification number: B01L3/502784 , B01L3/502 , B01L3/502715 , B01L3/502753 , B01L3/502776 , B01L7/52 , B01L2200/0621 , B01L2200/10 , B01L2300/0681 , B01L2300/0867 , B01L2300/087 , B01L2300/165 , B01L2400/0478 , B01L2400/0481 , B01L2400/0487 , B01L2400/0644 , C12Q1/68 , F17D3/00 , G01N35/1097 , G01N2001/4088 , Y10T137/0318 , Y10T137/8593 , Y10T137/85978
Abstract: Devices and system for preparing samples are described. Such devices can comprise fluidic chambers, reservoirs, and movable structures for controlling the movement of samples. The device can also comprise functional elements for performing specific operations.
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公开(公告)号:US08424560B2
公开(公告)日:2013-04-23
申请号:US12636086
申请日:2009-12-11
Applicant: Emil P. Kartalov , John Liu , Axel Scherer , Clive Taylor
Inventor: Emil P. Kartalov , John Liu , Axel Scherer , Clive Taylor
IPC: F16K31/365 , F16K31/36 , F15C3/04 , F15C1/06
CPC classification number: G05D7/0694 , F16K99/0001 , F16K99/0015 , F16K99/0026 , F16K99/0057 , F16K2099/008 , Y10T137/0318 , Y10T137/218 , Y10T137/2202 , Y10T137/2224 , Y10T137/7795 , Y10T137/7796
Abstract: Multi-valve autoregulatory microfluidic devices and methods are described. The described devices and methods offer improved performance and new means of tuning autoregulatory effects in microfluidic devices.
Abstract translation: 描述了多瓣膜自动调节微流体装置和方法。 所描述的装置和方法提供改进的性能和调整微流体装置中的自动调节效应的新手段。
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9.发明授权公开(公告)号:US08361738B2
公开(公告)日:2013-01-29
申请号:US12717402
申请日:2010-03-04
Applicant: Emil P. Kartalov , Axel Scherer , Clive Taylor
Inventor: Emil P. Kartalov , Axel Scherer , Clive Taylor
IPC: G01N33/00
CPC classification number: G01N33/5306 , B01L3/502738 , B01L2300/0816 , B01L2300/0864 , B01L2300/088 , B01L2300/0883 , B01L2400/0475
Abstract: Described herein is a method for detection of a target in a sample and related devices and systems.
Abstract translation: 这里描述了用于检测样品中的目标物和相关装置和系统的方法。
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公开(公告)号:US08356763B2
公开(公告)日:2013-01-22
申请号:US13427672
申请日:2012-03-22
Applicant: Aditya Rajagopal , Axel Scherer , Mladen Barbic
Inventor: Aditya Rajagopal , Axel Scherer , Mladen Barbic
IPC: B02C17/10
Abstract: Methods and arrangements to lyse a biological sample are described. The arrangements comprise a lysis tube containing the sample, one or more electromagnets generating a magnetic field, and one or more permanent magnets inside the lysis tube. The permanent magnets move and lyse the sample when a magnetic field is generated by the electromagnets.
Abstract translation: 描述了裂解生物样品的方法和布置。 该装置包括含有样品的裂解管,产生磁场的一个或多个电磁体和裂解管内的一个或多个永磁体。 当电磁铁产生磁场时,永久磁铁移动并裂开样品。
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