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    • 4. 发明授权
    • Magnetic connectors for microfluidic applications
    • 用于微流控应用的磁连接器
    • US08337783B2
    • 2012-12-25
    • US12820218
    • 2010-06-22
    • Laurie E. LocascioFrancisco Javier Atencia-Fernandez
    • Laurie E. LocascioFrancisco Javier Atencia-Fernandez
    • B01L99/00
    • F16K99/0046B01J19/0093B01J2219/0081B01L3/502715B01L2200/027B01L2200/0689B01L2300/0681F16K2099/0084
    • A magnetic connector assembly for microfluidic devices comprises a first magnetic connector with at least one orifice extending therethrough and a second magnetic connector. The first and second connectors are configured to magnetically attract each other. In one aspect, the first magnetic connector is configured to sealingly engage a surface of a microfluidic chip with the second magnetic connector disposed on an opposite side of the microfluidic chip. The first magnetic connector is configured to seal with the microfluidic chip about a channel opening in the microfluidic chip and provide flow communication between the channel opening and the orifice in the first magnetic connector. In at least one other aspect, the first magnetic connector and second magnetic connector each have at least one orifice and are configured to change a flow communication therebetween upon a rotation of the first or second magnetic connector with respect to the other magnetic connector.
    • 用于微流体装置的磁性连接器组件包括具有延伸穿过其中的至少一个孔的第一磁性连接器和第二磁性连接器。 第一和第二连接器被配置为磁吸引彼此。 在一个方面,第一磁性连接器构造成密封地接合微流体芯片的表面与设置在微流体芯片的相对侧上的第二磁性连接器。 第一磁性连接器构造成围绕微流体芯片中的通道开口与微流体芯片密封,并且在第一磁性连接器中提供通道开口和孔口之间的流动连通。 在至少另一方面中,第一磁性连接器和第二磁性连接器各自具有至少一个孔口,并且构造成在第一或第二磁性连接器相对于另一个磁性连接器旋转时改变其间的流动连通。
    • 6. 发明申请
    • MAGNETIC CONNECTORS FOR MICROFLUIDIC APPLICATIONS
    • 用于微流控应用的磁连接器
    • US20100322826A1
    • 2010-12-23
    • US12820218
    • 2010-06-22
    • Laurie E. LocascioFrancisco Javier Atencia-Fernandez
    • Laurie E. LocascioFrancisco Javier Atencia-Fernandez
    • B01L99/00
    • F16K99/0046B01J19/0093B01J2219/0081B01L3/502715B01L2200/027B01L2200/0689B01L2300/0681F16K2099/0084
    • A magnetic connector assembly for microfluidic devices comprises a first magnetic connector with at least one orifice extending therethrough and a second magnetic connector. The first and second connectors are configured to magnetically attract each other. In one aspect, the first magnetic connector is configured to sealingly engage a surface of a microfluidic chip with the second magnetic connector disposed on an opposite side of the microfluidic chip. The first magnetic connector is configured to seal with the microfluidic chip about a channel opening in the microfluidic chip and provide flow communication between the channel opening and the orifice in the first magnetic connector. In at least one other aspect, the first magnetic connector and second magnetic connector each have at least one orifice and are configured to change a flow communication therebetween upon a rotation of the first or second magnetic connector with respect to the other magnetic connector.
    • 用于微流体装置的磁性连接器组件包括具有延伸穿过其中的至少一个孔的第一磁性连接器和第二磁性连接器。 第一和第二连接器被配置为磁吸引彼此。 在一个方面,第一磁性连接器构造成密封地接合微流体芯片的表面与设置在微流体芯片的相对侧上的第二磁性连接器。 第一磁性连接器构造成围绕微流体芯片中的通道开口与微流体芯片密封,并且在第一磁性连接器中提供通道开口和孔口之间的流动连通。 在至少另一方面中,第一磁性连接器和第二磁性连接器各自具有至少一个孔口,并且构造成在第一或第二磁性连接器相对于另一个磁性连接器旋转时改变其间的流动连通。
    • 10. 发明授权
    • Microfluidic flow manipulation device
    • 微流控流量装置
    • US07658536B2
    • 2010-02-09
    • US12106990
    • 2008-04-21
    • Timothy J. JohnsonDavid J. RossLaurie E. Locascio
    • Timothy J. JohnsonDavid J. RossLaurie E. Locascio
    • B01F5/00
    • G05D7/0694Y10S366/03Y10T137/0318Y10T137/2224Y10T137/87652
    • Disclosed is an apparatus and method for the mixing of two microfluidic channels wherein several wells are oriented diagonally across the width of a mixing channel. The device effectively mixes the confluent streams with electrokinetic flow, and to a lesser degree, with pressure driven flow. The device and method may be further adapted to split a pair of confluent streams into two or more streams of equal or non-equal concentrations of reactants. Further, under electrokinetic flow, the surfaces of said wells may be specially coated so that the differing electroosmotic mobility between the surfaces of the wells and the surfaces of the channel may increase the mixing efficiency. The device and method are applicable to the steady state mixing as well as the dynamic application of mixing a plug of reagent with a confluent stream.
    • 公开了一种用于混合两个微流体通道的装置和方法,其中若干孔沿着混合通道的宽度倾斜地定向。 该装置将汇合流与电动流有效地混合,并且在较小程度上与压力驱动流混合。 装置和方法可以进一步适于将一对汇合流分成两个或更多个相等或不相等浓度的反应物流。 此外,在电动流动下,可以特别地涂覆所述孔的表面,使得孔的表面和通道表面之间的不同的电渗流动性可以提高混合效率。 该装置和方法适用于稳态混合以及将试剂塞与汇合流混合的动态应用。