Issue 23, 2010
From the journal:

Lab on a Chip

Controlled microparticle manipulation employing low frequency alternating electric fields in an array of insulators

Javier L. Baylon-Cardiel,a   Nadia M. Jesús-Pérez,a   Ana V. Chávez-Santoscoya  and  Blanca H. Lapizco-Encinas*b  

* Corresponding authors

a Biomems Research Group, Tecnológico de Monterrey, Campus Monterrey, Monterrey, N.L., México

b Microscale Bioseparations Laboratory, Centro de Investigación y de Estudios Avanzados del IPN Unidad Monterrey, PIIT, Vía del Conocimiento 201, Apodaca, NL, Mexico
E-mail: blapizco@cinvestav.mx
Fax: +52 81 1156-1741
Tel: +52 81 11561740 Ext: 4512

Abstract

Low frequency alternating current insulator-based dielectrophoresis is a novel technique that allows for highly controlled manipulation of particles. By varying the shape of an AC voltage applied across a microchannel containing an array of insulating cylindrical structures it was possible to concentrate and immobilize microparticles in bands; and then, move the bands of particles to a different location. Mathematical modeling was performed to analyze the distribution of the electric field and electric field gradient as function of the shape of the AC applied potential, employing frequencies in the 0.2–1.25 Hz range. Three different signals were tested: sinusoidal, half sinusoidal and sawtooth. Experimental results demonstrated that this novel dielectrophoretic mode allows highly controlled particle manipulation.

Graphical abstract: Controlled microparticle manipulation employing low frequency alternating electric fields in an array of insulators

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Article information

DOI
https://doi.org/10.1039/C0LC00097C
Article type
Paper
Submitted
13 Jun 2010
Accepted
06 Aug 2010
First published
11 Oct 2010

Lab Chip, 2010,10, 3235-3242

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Controlled microparticle manipulation employing low frequency alternating electric fields in an array of insulators

J. L. Baylon-Cardiel, N. M. Jesús-Pérez, A. V. Chávez-Santoscoy and B. H. Lapizco-Encinas, Lab Chip, 2010, 10, 3235 DOI: 10.1039/C0LC00097C

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