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    • 54. 发明授权
    • Western blot by incorporating an affinity purification zone
    • 通过掺入亲和纯化区的蛋白质印迹
    • US08592141B2
    • 2013-11-26
    • US13216441
    • 2011-08-24
    • Matthew B MurphyRobert S. Dubrow
    • Matthew B MurphyRobert S. Dubrow
    • C12Q1/00
    • G01N33/54366
    • A mixture of components is flowed through a binding channel region comprising a component-binding moiety, thereby binding at least a portion of a component of interest. The mixture is then flowed through a separation channel region that includes a buffer comprising a detergent, resulting in separated components. Diluent is mixed with the separated components, diluting the detergent, and the separated components are detected. The component of interest is released from the component-binding moiety and flowed through the separation channel region. Diluent is mixed with the released component of interest, diluting the detergent, and the released component of interest is detected.
    • 组分的混合物流过包含组分结合部分的结合通道区,从而结合目的组分的至少一部分。 然后将混合物流过包括包含洗涤剂的缓冲液的分离通道区域,得到分离的组分。 将稀释剂与分离的组分混合,稀释洗涤剂,并检测分离的组分。 感兴趣的组分从组分结合部分释放并流过分离通道区。 将稀释液与所释放的感兴趣组分混合,稀释洗涤剂,并检测释放的感兴趣组分。
    • 59. 发明申请
    • Nanostructured Thin Films and Their Uses
    • 纳米结构薄膜及其用途
    • US20090124034A1
    • 2009-05-14
    • US12121008
    • 2008-05-15
    • Chunming NiuR. Hugh DanielsRobert S. DubrowJay L. Goldman
    • Chunming NiuR. Hugh DanielsRobert S. DubrowJay L. Goldman
    • H01L21/30
    • A61L27/303A61L31/122H01J49/0418Y10S977/701Y10T428/12736Y10T428/12743
    • The present invention generally discloses the use of a nanostructured non-silicon thin film (such as an alumina or aluminum thin film) on a supporting substrate which is subsequently coated with an active layer of a material such as silicon or tungsten. The base, underlying non-silicon material generates enhanced surface area while the active layer assists in incorporating and transferring energy to one or more analytes adsorbed on the active layer when irradiated with a laser during laser desorption of the analyte(s). The present invention provides substrate surfaces that can be produced by relatively straightforward and inexpensive manufacturing processes and which can be used for a variety of applications such as mass spectrometry, hydrophobic or hydrophilic coatings, medical device applications, electronics, catalysis, protection, data storage, optics, and sensors.
    • 本发明一般公开了在支撑衬底上使用纳米结构非硅薄膜(例如氧化铝或铝薄膜),随后用诸如硅或钨的材料的活性层涂覆。 底层的非硅材料产生增强的表面积,而活性层有助于在分析物的激光解吸附中用激光照射时,将能量并入和转移到吸附在活性层上的一种或多种分析物。 本发明提供了可以通过相对直接和廉价的制造方法制造的衬底表面,其可用于各种应用,例如质谱,疏水或亲水涂层,医疗器械应用,电子学,催化,保护,数据存储, 光学和传感器。