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两种微流控阻抗细胞仪设计的分析电场与灵敏度分析

Analytical electric field and sensitivity analysis for two microfluidic impedance cytometer designs.

作者信息

Sun T, Green N G, Gawad S, Morgan H

机构信息

Nanoscale Systems Integration Group, School of Electronics and Computer Science, University of Southampton, Southampton, UK.

出版信息

IET Nanobiotechnol. 2007 Oct;1(5):69-79. doi: 10.1049/iet-nbt:20070019.

Abstract

Microfabricated impedance cytometers have been developed to measure the electrical impedance of single biological particles at high speed. A general approach to analytically solve the electric field distributions for two different designs of cytometers: parallel facing electrodes and coplanar electrodes, using the Schwarz-Christoffel Mapping method is presented. Compared to previous analytical solutions, our derivations are more systematic and solutions are more straightforward. The solutions have been validated by comparison with numerical simulations performed using the finite element method. The influences on the electric field distribution due to the variations in the geometry of the devices have been discussed. A simple method is used to determine the impedance sensitivity of the system and to compare the two electrode designs. For identical geometrical parameters, we conclude that the parallel electrodes design is more sensitive than the coplanar electrodes.

摘要

微制造阻抗细胞仪已被开发用于高速测量单个生物颗粒的电阻抗。本文提出了一种使用施瓦兹 - 克里斯托费尔映射方法来解析求解两种不同设计的细胞仪(平行面对电极和共面电极)电场分布的通用方法。与先前的解析解相比,我们的推导更具系统性,解也更直接。通过与使用有限元方法进行的数值模拟结果相比较,验证了这些解。讨论了器件几何形状变化对电场分布的影响。使用一种简单方法来确定系统的阻抗灵敏度并比较两种电极设计。对于相同的几何参数,我们得出结论,平行电极设计比共面电极更灵敏。

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