|本期目录/Table of Contents|

Sidewall 4-Electrode Capacitively Coupled Contactless Conductivity Detector(PDF)

《纳米技术与精密工程》[ISSN:1672-6030/CN:12-1351/O3]

期数:
2012年6期
页码:
503-508
栏目:
微机电系统
出版日期:
2012-11-15

文章信息/Info

Title:
侧壁四电极电容耦合非接触电导检测器
作者:
GU Wen-wen1 2 3 WEN Zhi-yu1 2 3 XU Yi1 2 WEN Zhong-quan1 2 3 LIANG Feng-fei1 2
(1. Key Laboratory of Fundamental Science of Micro/Nano-Device and System Technology,
Chongqing University, Chongqing 400030, China;
2. National Center for International Research of Micro/Nano-System and New Material Technology,
Chongqing University, Chongqing 400030, China;
3. Microsystem Research Center, Chongqing University, Chongqing 400030, China)
Author(s):
顾雯雯123 温志渝123 徐溢12 温中泉123 梁凤飞12
(1. 重庆大学新型微纳器件与系统技术国防重点学科实验室,重庆400030;
2. 重庆大学国家级微纳系统与新材料技术国际研究中心,重庆400030;
3. 重庆大学微系统研究中心,重庆400030)
关键词:
sidewall 4-electrode contactless conductivity detector capillary electrophoresis chip
Keywords:
侧壁四电极非接触电导检测器毛细管电泳芯片
分类号:
O657
DOI:
-
文献标识码:
A
摘要:
 A novel 4-electrode capacitively coupled contactless conductivity detector (C4D) integrated along the sidewalls of the separation channel of silicon based capillary electrophoresis (CE) chip was fabricated. Equivalent models and formulas of the detector were studied, and the factors which affect the response sensitivity of the detector were discussed. Deep etching and boron doping technologies were used to fabricate tridimensional electrodes for C4D sensing. Signal processing circuit based on lock-in amplifier principle was made to test the frequency response and sensitivity of the detector. The experimental results show that the linearity of the detector is the best when the frequency of exciting signal is 300 kHz; the voltage difference of different Na+ concentrations is 5 mV; the detection limit can reach 10-8 mol/L; and the online detection for Na+ and Li+ after electrophoresis separation is also achieved.
Abstract:
研制了一种集成于硅基电泳芯片分离沟道末端侧壁的新型四电极电容耦合非接触电导检测器. 研究了该电导检测器的等效模型, 对等效电路模型中的参数进行了公式推导, 并讨论了影响电导检测响应灵敏度的相关因素. 采用深刻蚀及离子注入加工技术制得了用于电导检测的立体电极. 制作了基于锁相放大原理的信号处理电路,对该电导检测的频率响应及灵敏度进行了测试分析. 实验结果表明,当激励信号频率为300 kHz时,该电导检测器具有最佳线性度;不同浓度Na+ 溶液响应电压差值为5 mV;检测限达到10-8 mol/L;且成功实现了Na+ 和Li+ 混合无机阳离子的电泳分离在线检测.

参考文献/References

备注/Memo

备注/Memo:
收稿日期:
基金项目:
作者简介:
通讯作者:
2011-09-18.
科技部国际合作项目(2009DFB10440);教育部外专局聘请外国专家计划资助项目(TS2010CQDX056);国家高技术研究发展计划(863计划)资助项目(2006AA04Z354).
顾雯雯(1983— ),女,博士,guww1983@163.com.
温志渝,教授,wzy@cqu.edu.cn.
更新日期/Last Update: 2013-02-26