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    • 2. 发明申请
    • MICROFLUID DEVICE
    • 微流体装置
    • US20110194995A1
    • 2011-08-11
    • US13061324
    • 2009-08-27
    • Andreas RiglerMichael VellekoopBernhard Lendl
    • Andreas RiglerMichael VellekoopBernhard Lendl
    • B01L3/00
    • B01F5/0471B01F5/0475B01F5/0478B01F13/0059
    • The present invention relates to a microfluid device for discharging a fluid or a mixture of fluids including a discharge channel, at least one main fluid supply channel which leads into at least one secondary supply channel which is essentially situated in the same plane as the discharge channel, and which leads laterally towards the discharge channel and, in turn, leads into an inlet channel situated above or below the discharge channel, the inlet channel entering into the discharge channel from its top or bottom side via at least one inlet opening. The at least one inlet channel has a cross-sectional shape which changes in the longitudinal direction and/or in that the at least one inlet opening has an opening width changing in the transverse direction of the discharge channel.
    • 本发明涉及一种用于排出包括排放通道的流体或流体混合物的微流体装置,至少一个主流体供应通道,该至少一个主流体供应通道进入至少一个主要位于与排出通道相同的平面中的二次供应通道 并且其横向地朝向排出通道引导,并且进而导向位于排出通道上方或下方的入口通道,入口通道经由至少一个入口开口从其顶部或底部进入排出通道。 至少一个入口通道具有在纵向上变化的横截面形状和/或至少一个入口具有在排出通道的横向方向上变化的开口宽度。
    • 3. 发明授权
    • Method of infrared-optically determining the concentration of at least one analyte in a liquid
    • 红外光学测定液体样品中至少一种分析物的浓度的方法
    • US06737651B1
    • 2004-05-18
    • US09958248
    • 2001-10-05
    • Bernhard Lendl
    • Bernhard Lendl
    • G01N2159
    • G01N21/39G01N21/3577
    • Disclosed is a method of infrared-optically determining the concentration of at least one analyte in a liquid sample, wherein the infrared absorption of the analyte(s) is measured and compared with a standard, which is characterized in that the liquid sample is sampled with an infrared radiation of high light density, wherein the infrared radiation has a sharp intensity peak at at least one wave length, as well as an arrangement for the infrared-optical transmission determination of the concentration of at least one analyte in a liquid sample, with a sample cuvette flowed through by the sample liquid, the sample cuvette being arranged in the radiation path between a radiation source for providing the infrared radiation and a detector for measuring the infrared absorption induced by the analyte in the sample cuvette.
    • 公开了红外光学测定液体样品中至少一种分析物的浓度的方法,其中测量分析物的红外吸收并与标准物进行比较,其标准物的特征在于,用 高密度的红外辐射,其中所述红外辐射在至少一个波长处具有尖锐的强度峰值,以及用于红外光学透射测定液体样品中至少一种分析物的浓度的装置,其中, 由样品液体流过的样品比色皿,样品比色皿被布置在用于提供红外辐射的辐射源之间的辐射路径中,以及用于测量由样品比色杯中的分析物引起的红外吸收的检测器。
    • 5. 发明授权
    • Method of infrared-optically determining the concentration of at least one analyte in a liquid sample
    • 红外光学测定液体样品中至少一种分析物的浓度的方法
    • US07276701B2
    • 2007-10-02
    • US10847161
    • 2004-05-17
    • Bernhard Lendl
    • Bernhard Lendl
    • G01N21/35G01N21/00G01J5/02
    • G01N21/39G01N21/3577
    • A method of infrared-optically determining the concentration of at least one analyte in a liquid sample, wherein the infrared absorption of the analyte(s) is measured and compared with a standard, which is characterized in that the liquid sample is sampled with an infrared radiation of high light density, wherein the infrared radiation has a sharp intensity peak at at least one wave length, as well as an arrangement for the infrared-optical transmission determination of the concentration of at least one analyte in a liquid sample, with a sample cuvette flowed through by the sample liquid, the sample cuvette being arranged in the radiation path between a radiation source for providing the infrared radiation and a detector for measuring the infrared absorption induced by the analyte in the sample cuvette.
    • 一种红外光学测定液体样品中至少一种分析物的浓度的方法,其中测量分析物的红外吸收并与标准物进行比较,其标准物的特征在于,液体样品用红外 高光密度的辐射,其中红外辐射在至少一个波长处具有尖锐的强度峰值,以及用于红外光学透射测定液体样品中至少一种分析物的浓度的装置,其中样品 样品池通过样品液体流过,样品比色皿被布置在用于提供红外辐射的辐射源之间的辐射路径中,以及用于测量由样品比色皿中的分析物引起的红外吸收的检测器。