本文综述了毛细管电泳化学发光检测系统微型化、集成化和自动化的最新研究进展。
Here we present a review of the miniaturization, integration, and automation in chemiluminescence detection for capillary electrophoresis.
很显然,微流控系统中用空气作载流的分析方法不适于分光检测、电化学检测以及荧光检测,但用化学发光检测时则显示出独特的优势。
It was obvious that the proposed analytical method of the air carrier in microfluidic system were not suitable for the spectrophotometric, electrochemical and fluorescence detection.
推导出基于化学发光检测原理的光子计数法测量NO浓度的公式,详细分析了影响检测灵敏度的系统参数。
The Photon-Count method formula for NO NO detection based on the principle of CL is deduced and the system parameters which can influence the detection sensitivity are analyzed in detail.
推导出基于化学发光检测原理的光子计数法测量NO浓度的公式,详细分析了影响检测灵敏度的系统参数。
The Photon-Count method formula for NO NO detection based on the principle of CL is deduced and the system parameters which can influence the detection sensitivity are analyzed in detail.
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