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Continuous Separation of Submicron Particles Using Angled Electrodes - art. no. 012068

Continuous Separation of Submicron Particles Using Angled Electrodes - art. no. 012068
Continuous Separation of Submicron Particles Using Angled Electrodes - art. no. 012068
Dielectrophoretic separation of particles is achieved by the generation of electric forces on the particles by non-uniform electric fields. This paper presents a technique based on negative dielectrophoresis in a novel design of electrode array for the non-contact separation of polarisable particles. Angled electrodes are used to generate a lateral force in a microfluidic channel separating a mixed stream of particles into distinct streams of constituent components and achieving a high degree of spatial separation.
1742-6596
12068-12068
IOP Publishing
Yunus, NAM
119a9091-df6b-48ad-85f8-4b07bd0d0b02
Green, NG
d9b47269-c426-41fd-a41d-5f4579faa581
Yunus, NAM
119a9091-df6b-48ad-85f8-4b07bd0d0b02
Green, NG
d9b47269-c426-41fd-a41d-5f4579faa581

Yunus, NAM and Green, NG (2009) Continuous Separation of Submicron Particles Using Angled Electrodes - art. no. 012068. In, Journal of Physics: Conference Series. (Journal of Physics: Conference Series, 142) 2008 ed. Electrostatics 2007: 12th international conference on Electrostatics (01/01/08) IOP Publishing, p. 12068.

Record type: Book Section

Abstract

Dielectrophoretic separation of particles is achieved by the generation of electric forces on the particles by non-uniform electric fields. This paper presents a technique based on negative dielectrophoresis in a novel design of electrode array for the non-contact separation of polarisable particles. Angled electrodes are used to generate a lateral force in a microfluidic channel separating a mixed stream of particles into distinct streams of constituent components and achieving a high degree of spatial separation.

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More information

Published date: 2009
Additional Information: Imported from ISI Web of Science
Venue - Dates: Electrostatics 2007: 12th international conference on Electrostatics, St Catherines College, Oxford, United Kingdom, 2008-01-01
Organisations: Nanoelectronics and Nanotechnology

Identifiers

Local EPrints ID: 270297
URI: http://eprints.soton.ac.uk/id/eprint/270297
ISSN: 1742-6596
PURE UUID: f6dae7d7-ac47-435b-a0ca-dbe835dbfccc
ORCID for NG Green: ORCID iD orcid.org/0000-0001-9230-4455

Catalogue record

Date deposited: 21 Apr 2010 07:46
Last modified: 23 May 2024 01:38

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Contributors

Author: NAM Yunus
Author: NG Green ORCID iD

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