基于绝缘结构介电泳微流控器件中的电热流动

项目名称： 基于绝缘结构介电泳微流控器件中的电热流动

项目编号： No.11272321

项目类型： 面上项目

立项/批准年度： 2013

项目学科： 数理科学和化学

项目作者： 胡国庆

作者单位： 中国科学院力学研究所

项目金额： 80万元

中文摘要： 介电泳是微流控器件中广泛用于操控颗粒、细胞和生物分子的一类强大工具。与传统基于电极介电泳相比，基于绝缘结构介电泳（insulator-based dielectrophores,iDEP）微流控器件具有易加工、抗电化学反应能力强、不易失效等优势。然而，由于通道中绝缘微结构附近电场的局部增强，焦耳热效应经常成为iDEP器件应用中难以避免的问题，相关研究迄今仍未开展。本项目将开展iDEP微流控器件中焦耳热效应对流体流动、热传导、颗粒输运影响的系统研究。结合实验测量和三维数值模拟以探索三种典型iDEP微流控器件中的电热流动效应，增强对iDEP器件中颗粒操控的深入了解和精确预测，更有效地实现不同颗粒的汇聚、捕捉、富集、分类等功能。通过建立相关流动和传热规律，避免电热效应的负面效应并能进一步利用电热效应，为iDEP微流控器件的设计、分析、控制和优化提供理论指导，以拓展针对细胞及生物分子的相关应用。

中文关键词： 微流动；介电泳；焦耳热；微纳颗粒；高通量

英文摘要： Dielectrophoresis (DEP) is a powerful tool that has been widely used to manipulate particles, cells, and biomolecules in microfluidic devices. As compared to the traditional electrode-based dielectrophoresis (eDEP), insulator-based dielectrophoresis (iDEP) microdevices are easier to fabricate, inerter to electro-chemical reactions, and less prone to fouling. However, due to the locally amplified electric field around the in-channel micro insulator(s), Joule heating often becomes an issue in iDEP microdevices. Their effects on fluid flow and particle motion in iDEP microdevices have thus far remained nearly unexplored. Our goal in this proposal is to develop a comprehensive knowledge of the effects of Joule heating on fluid, heat, and particle transport in iDEP microdevices. We will integrate experimental validations and 3D numerical simulations to investigate the electrothermal effects on fluid flow in three types of typical iDEP microdevices. This proposed research will advance our understanding and prediction of particle manipulation in iDEP microdevices, resulting in a better realization of focusing, trapping, concentration, and sorting for particles with various properties. The acquired knowledge will build the fluid mechanics and heat transfer foundations for the design, analysis, control, and optimization

英文关键词： Microfluidics；Dielectrophoresis；Joule heating；Micro/nanoparticle；High throughput