大学化学实验报告 化学论文集 基于微芯片电泳的脱氧核糖核酸片段的浓缩和分离 目前,最容易实现的还是在芯片上通过光电刻蚀技术形成液体通道、缓冲液池和样品池,利用电泳技术进行分离。此技术被称之为微芯片电泳(m icrochip electro-phoresis, MCE)。MCE的优点是消耗的试剂和样品较少;多通道的设计能完成同一样品或不同样品的并行分析处理;由于芯片面
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微流控芯片电泳 Microchip electrophoresis ; microfluidic chip based CE ; MCE
微流控电泳芯片 micro-fluidic capillary electrophoresis chip
非水微流控芯片电泳 NAMCE
微通道电泳芯片 Micro-channel Electrophoresis Chip ; MCE CHIP
微量电泳芯片 microelectrophoresis chip
微芯片毛细管电泳 Microchip capillary electrophoresis
微流体电泳芯片 Micro-fluidic Electrophoresis Chip ; MFE CHIP
微通道电泳芯片系统 MCE Chip System
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.
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.
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.
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