Title :
AC electric-field-induced fluid flow in microelectrode structures: scaling laws
Author :
Castellanos, Antonio ; Ramos, Antonio ; Gonzalez, Adriana ; Morgan, Hywel ; Green, Nicolas
Author_Institution :
Dept. Electronica y Electromagnetismo, Seville Univ., Spain
Abstract :
The motion of polarizable bioparticles under the action of non-uniform ac electric fields is known as dielectrophoresis. Because submicrometre particles are subjected to Brownian motion, high electric fields are needed to manipulate them. However, these high electric fields give rise to fluid motion, which in turn results in a viscous drag on the particles. The electric fields generate beat, leading to gradients in conductivity, permittivity, and mass density in the fluid. These gradients give rise to electrothermal forces and buoyancy. Also non-uniform ac electric fields produce forces on the induced charges in the diffuse double layer on the electrodes, that results in fluid motion. Here we characterize these flows and their domain of influence.
Keywords :
Brownian motion; biological fluid dynamics; biological techniques; drag; electrochemical electrodes; electrochemistry; electrohydrodynamics; electrophoresis; flow simulation; microelectrodes; two-phase flow; AC electric-field-induced fluid flow; Brownian motion; buoyancy; conductivity; dielectrophoresis; diffuse double layer; electrodes; electrothermal forces; fluid motion; mass density; microelectrode structures; nonuniform ac electric fields; permittivity; polarizable bioparticles; scaling laws; submicrometre particles; viscous drag; Conductivity; Dielectrophoresis; Drag; Electric fields; Electrothermal effects; Fluid flow; Microelectrodes; Nonuniform electric fields; Permittivity; Polarization;
Conference_Titel :
Dielectric Liquids, 2002. ICDL 2002. Proceedings of 2002 IEEE 14th International Conference on
Print_ISBN :
0-7803-7350-2
DOI :
10.1109/ICDL.2002.1022692
