Investigation of capacitance dependence on droplet volume in MEDA based biochips

2016 6th International Conference on Intelligent and Advanced Systems (ICIAS) Pub Date : 2016-08-01 DOI:10.1109/ICIAS.2016.7824089

V. Shukla, F. Hussin, N. H. Hamid, N. Ali

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引用次数: 3

Abstract

Digital microfluidics biochips has led to the revolution of modern day clinical diagnostics procedures. These biochips enable the use of nano-liter volume of samples and reagents. A more recent architecture of digital microfluidics known as Micro-electrode Dot Array (MEDA) has been introduced which incorporate some advance operations like diagonal movement and channel based routing. Owing to this new architecture, there exist some defects which require additional testing techniques. The defect in these biochips is studied by analyzing the capacitance changes at the sensing circuit. An investigation of capacitance of droplet based on the volume variation is done. The motivation behind this study is to see the variation of capacitance due to the defects in the biochips which can occur due to the volume variation of the droplet in MEDA based biochips. It is seen that the capacitance of droplet varies linearly with droplet volume which leads to the conclusion that defects due to the volume variation directly affects the capacitance at the sensing circuit.

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基于MEDA的生物芯片中液滴体积对电容依赖性的研究

数字微流体生物芯片导致了现代临床诊断程序的革命。这些生物芯片可以使用纳升体积的样品和试剂。介绍了一种最新的数字微流体结构，即微电极点阵列(MEDA)，它包含了一些先进的操作，如对角移动和基于通道的路由。由于这种新的体系结构，存在一些需要额外测试技术的缺陷。通过对传感电路电容变化的分析，研究了这些生物芯片的缺陷。研究了基于体积变化的液滴电容。这项研究背后的动机是观察由于MEDA生物芯片中液滴的体积变化而导致的生物芯片缺陷导致的电容变化。由图可知，液滴的电容随液滴体积呈线性变化，由此可以得出体积变化引起的缺陷直接影响传感电路的电容。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 6th International Conference on Intelligent and Advanced Systems (ICIAS)

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