摘要
由于电泳焦耳热的存在,使毛细管电泳试样的流通量小,阻碍了毛细管电泳的发展与应用。冷却系统在微管电泳系统中占有重要地位,它在微流体流动控制难度方面,有重要的研究与应用价值。本综述在节省实验经费与空间、提高仪器的使用率的同时,对之前所研究的基于智能控制的内部冷却技术改进毛细管电泳构造微管电泳检测系统,进一步研究与完善的进展进行综述。
The existence of electrophoresis joule heat leads to the small flow of the capillary electrophoresis sam- ple, which hinders the development and application of CE. The cooling system occupies an important position in the microtubules electrophoresis system. It has important research and application value in the difficulty of mi- crofluidic flow control. On the basis of saving experimental funds and space and improving the use of the instru- ment, we reviewed the previous studies about using intelligent control technology to construct a microtubule elec- trophoresis detection system and progressing microtubule electrophoresis instrument system based on intelligent refrigeration technology.
出处
《基因组学与应用生物学》
CAS
CSCD
北大核心
2017年第7期3008-3010,共3页
Genomics and Applied Biology
基金
西京学院校级科研项目(XJ120227)资助
关键词
焦耳热
冷却系统
微管电泳
微芯片
Joule heat, Cooling system, Micro capillary electrophoresis, Microchip
