THEORETICAL ANALYSIS AND EXPERIMENT OF A NOVEL DEP CHIP WITH 3-D SILICON ELECTRODES

LIMING YU; FRANCIS E. H. TAY; GUOLIN XU; CIPRIAN ILIESCU; MARIO ARA AVRAM

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THEORETICAL ANALYSIS AND EXPERIMENT OF A NOVEL DEP CHIP WITH 3-D SILICON ELECTRODES

机译：带3-D硅电极的新型芯片的理论分析与实验

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This paper presents a novel dielectrophoresis (DEP) device where the DEP electrodes define the channel walls. This is achieved by fabricating microfluidic channel walls from highly doped silicon so that they can also function as DEP electrodes. Compared with planar electrodes, this device increases the exhibited dielectrophoretic force on the particle, therefore decreases the applied potential and reduces the heating of the solution. A DEP device with triangle electrodes has been designed and fabricated. Compared with the other two configurations, semi-circular and square, triangle electrode presents an increased force, which can decrease the applied voltage and reduce the Joule effect. Yeast cells have been used to for testing the performance of the device.

机译：本文提出了一种新型的介电电泳（DEP）装置，其中DEP电极定义了通道壁。这是通过用高掺杂硅制造微流体通道壁来实现的，这样它们也可以用作DEP电极。与平面电极相比，该装置增加了在颗粒上表现出的介电泳力，因此降低了施加的电势并减少了溶液的热量。已经设计和制造了具有三角形电极的DEP装置。与其他两种配置（半圆形和正方形）相比，三角形电极的作用力更大，可以减小施加的电压并减小焦耳效应。酵母细胞已用于测试设备的性能。

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来源
《International journal of software engineering and knowledge engineering》 |2005年第2期|p.231-236|共6页
作者
LIMING YU; FRANCIS E. H. TAY; GUOLIN XU; CIPRIAN ILIESCU; MARIO ARA AVRAM;
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作者单位

Department of Mechanical Engineering, National University of Singapore, Singapore;

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原文格式 PDF
正文语种 eng
中图分类计算机软件;
关键词
biochip; dielectrophoresis; cell manipulation;

机译：生物芯片;介电泳;细胞操作;

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THEORETICAL ANALYSIS AND EXPERIMENT OF A NOVEL DEP CHIP WITH 3-D SILICON ELECTRODES

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