Title :
AC electroosmotic micropumping with a square spiral microelectrode array
Author :
Moore, Thomas A. ; Lai, Yongjun
Author_Institution :
Dept. of Mech. & Mater. Eng., Queen´´s Univ., Kingston, ON
Abstract :
An electro-kinetic micropumping device has been designed, experimentally tested and analyzed theoretically using coupled computational fluid dynamic and electrostatic simulations. A microelectrode array uses the principle of AC electroosmosis; bulk fluid motion due to ions driven along microelectrode surfaces by forces stemming from tangential electric fields. Three submerged microelectrode wires, deposited to form a square spiral, had a three-phase traveling-wave applied AC signal to create a net flow. Microsphere tracers were used to measure the flow to determine pumping performance, and compare the fluid velocity and operating frequency to theoretical results. The device presented here demonstrated bi-directional pumping capabilities and the potential for use as both a particle collector and microfluidic pump.
Keywords :
computational fluid dynamics; electrohydrodynamics; electrokinetic effects; electrophoresis; electrostatics; microelectrodes; microfluidics; micropumps; osmosis; AC electroosmotic micropumping; bi-directional pumping capabilities; bulk fluid motion; computational fluid dynamic simulations; electro-kinetic micropumping device; electrostatic simulations; microfluidic pump; microsphere tracers; particle collector; square spiral microelectrode array; tangential electric fields; three-phase traveling-wave; Analytical models; Computational fluid dynamics; Computational modeling; Electric fields; Electrostatic analysis; Microelectrodes; Pumps; Spirals; Testing; Wires; electro-osmosis; electrokinetics; micro-electrodes; microfluidics;
Conference_Titel :
Microsystems and Nanoelectronics Research Conference, 2008. MNRC 2008. 1st
Conference_Location :
Ottawa, Ont.
Print_ISBN :
978-1-4244-2920-2
Electronic_ISBN :
978-1-4244-2921-9
DOI :
10.1109/MNRC.2008.4683402
