总结了前人微通道电泳芯片的研究情况,提出了自己系统的设计方案;
The most recent developments and a novel design of MCE chip system are reviewed;
因此,本文开展基于ARM9的光纤式毛细管电泳芯片检测系统的研究。
So the detecting system of optical fiber embedded electrophoresis microchip Based on ARM9 is discussed in this paper.
本论文的研究表明,微通道电泳芯片系统具有分析速度快、检测灵敏度高等优点。
The study of this dissertation showed that MCE chip has some advantages such as high speed and sensitivity.
光纤嵌入式毛细管电泳芯片因其体积小、检测光路简单等诸多优点,正在引起人们的关注。
CE microchip based on optical fiber embedded arouses people's attention for its small volume, simple detection optical route.
对毛细管电泳芯片的压力进样过程进行了理论分析,并用商用软件对这一过程进行数值实验。
The theoretical analysis and numerical experiments with commercial software about sampling process in electrophoresis chip were presented.
依据该模型对这种低电压集成电泳芯片的研制工艺和控制系统进行了研究,研制出了相应的样品。
The fabrication and control of low voltage integrated electrophoresis chips have been studied using this model, with samples produced.
初步实验表明,该电泳芯片的低电压分离的思想可为分析仪器的集成化、便携式设计提供一定的方法。
Initial experiments show the new idea of low voltage separation is one of the ways and means for integration and portable design of electrophoresis chips.
在此基础上,进行低电压毛细管电泳芯片集成系统的初步实验,并提出了后续工作需解决的相关问题。
On this basis, the preliminary experiments of low-voltage electrophoresis separation chip integration system were tested, and the related issues of future work are proposed.
本文系统描述UML语言和毛细管电泳芯片工作原理,并介绍运用UML语言对ICEC信号分析系统建模方法。
This paper describes UML and Integrated Capillary Electrophoresis base on Chip (ICEC) theory, and a new method using the UML modeling for ICEC Signal Analyze System.
前言:集成毛细管电泳芯片是一种新型的微全分析系统,它具有样品用量少、分析速度快、体积小便于携带、成本低等优点。
Integrated Capillary electrophoresis(ICE) chip is a novel type of miniaturized total analysis system, with characteristics of tiny sampling, speedy assay time, portable and cost-effective.
依赖双向电泳的杂交检测单元,配备该检测单元的传感器芯片,和杂交检测的方法。
Hybridization detecting unit relying on dielectrophoresis, sensor chip provided with the detecting unit, and method for detection of hybridization.
本论文的研究内容是进行基于电驱动的连续试样引入-芯片毛细管电泳分离分析的研究。
The present work is focused on developing electrokinetic continuous sample introduction systems for microfluidic chip-based capillary electrophoresis.
此检测器能够实现对芯片毛细管电泳信号的实时处理与分析。
The microchip capillary electrophoresis signal can be processed in a manner of real time processing and analyzed by the detection system.
由于该芯片本身带有一根石英毛细管,所以紫外吸收检测器可以直接对其进行电泳检测。
Because the chip is connected to a quartz capillary, the electrophoresis on the chip can be directly detected by a UV absorption detector.
检测器是毛细管电泳的重要组成部分,它的灵敏度、精度直接了影响芯片性能的发挥。
Detector is an important component of integrated capillary electrophoresis chips; its sensitivity and precision have direct influence on the performance of chips.
在第二章中,采用激光诱导荧光检测芯片毛细管电泳系统进行蛋白质和多肽分离的研究。
In the second section, a chip based ce system with laser induced fluorescence detector was developed to achieve the separation of protein and polypeptide.
提出了一种基于芯片-毛细管复合装置的紫外检测-微流控芯片毛细管电泳分析系统。
A hybrid microfluidic system produced by coupling a microfabricated glass chip with conventional silica capillary for UV absorbance detection was developed.
体积小、重量轻的优点使得该电源非常适用于芯片电泳电导检测等微型检测仪器中。
The lightness and compactness of the whole device make it ideal for microchip electrophoresis conductivity detector.
体积小、重量轻的优点使得该电源非常适用于芯片电泳电导检测等微型检测仪器中。
The lightness and compactness of the whole device make it ideal for microchip electrophoresis conductivity detector.
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