毛细管等速电泳与毛细管区带电泳的协同作用。

L Krivánková, P Bocek
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引用次数: 0

摘要

毛细管等速电泳与毛细管区带电泳相结合,可大大提高分析毛细管电泳的分离功率和浓度灵敏度。等速电泳的浓缩效果和分离能力允许对稀释样品进行分析,并消除由于散装成分造成的干扰。区域电泳的分离过程使人们能够分辨出一堆痕量分析物,并以高灵敏度检测所得的单个区域。从等速电泳到区带电泳的过渡对这种联用技术的整体性能起着关键作用。本文描述了等速电泳向区电泳模式转化的动力学过程,并指出从等速电泳阶段开始的前导区和终止区片段起着关键作用。这些片段的大小直接影响检测时间以及分析物峰的分离宽度。结果表明,这些效应在毛细管区带电泳分析中也很重要,其中等速电泳是由样品本身引起的。最后,本文提出了一系列推荐的、用户友好的电解质系统,这些系统使人们能够简单地预测组合等速电泳-区带电泳的性能。
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Synergism of capillary isotachophoresis and capillary zone electrophoresis.

The combination of capillary isotachophoresis and capillary zone electrophoresis may enhance greatly the performance of analytical capillary electrophoresis with respect to both separation power and the concentration sensitivity. The concentrating effects and the separation power of isotachophoresis allow the analysis of diluted samples and the elimination of interferences due to bulk components. The separation process of zone electrophoresis enables one to resolve the stack of trace analytes and detect the resulting individual zones with high sensitivity. The transition of isotachophoresis into zone electrophoresis plays the key role in the overall performance of this hyphenated technique. This article describes the dynamics of the conversion of isotachophoresis into zone electrophoretic mode and shows that the key role is played by the segments of the leading and terminating zones from the isotachophoretic stage. The magnitude of these segments directly effects the detection time as well as the separation width of the peaks of analytes. It is shown that these effects are also important in the analyses by capillary zone electrophoresis where isotachophoresis is induced by the sample itself. Finally, the paper presents a list of recommended, user-friendly, electrolyte systems which enable one to simply predict the performance of the combination isotachophoresis-zone electrophoresis.

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