Inlaid Carbon Nanofiber Nanoelectrode Array as Highly Efficient Dielectrophoresis Device for Bacteria Trapping

Dielectrophoresis (DEP) is an effective microelectronic technique for trapping and manipulating biological particles in a microfluidic environment, which relies on the highly asymmetric electric field gradient created by the microelectrodes. Here we demonstrate an AC DEP technique for single-bacteri...

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Hauptverfasser:	Jun Li, Arumugam, P.U., Chen, H., Cassell, A.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Arrays Charge carrier processes Electrodes Force Microfluidics Microorganisms Nanobioscience
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creator	Jun Li Arumugam, P.U. Chen, H. Cassell, A.
description	Dielectrophoresis (DEP) is an effective microelectronic technique for trapping and manipulating biological particles in a microfluidic environment, which relies on the highly asymmetric electric field gradient created by the microelectrodes. Here we demonstrate an AC DEP technique for single-bacteria trapping using nanoelectrode arrays (NEAs) in a "points-and-lid" configuration. The NEA is based on vertically aligned carbon nanofibers (CNFs) embedded in SiO 2 matrix. The miniaturization of the electrode size provides a highly focused electric field with the gradient enhanced by several orders of magnitude. Finite element modeling indicated that the pDEP force using such NEA-based devices can be increased by over 100 times. Experiments indicated that the bacteria can be trapped instantaneously on to the exposed CNF tip with an AC voltage of ~3 V pp . In most cases, a single E. coli bacterium is trapped at a single CNF site due to the screening effect. Such nano-DEP device allows the integration of millions of nanolectrodes deterministically in lab-on-a-chip devices that can be used for effective cell manipulating and concentration.
doi_str_mv	10.1109/NANO.2008.246
format	Conference Proceeding
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Here we demonstrate an AC DEP technique for single-bacteria trapping using nanoelectrode arrays (NEAs) in a "points-and-lid" configuration. The NEA is based on vertically aligned carbon nanofibers (CNFs) embedded in SiO 2 matrix. The miniaturization of the electrode size provides a highly focused electric field with the gradient enhanced by several orders of magnitude. Finite element modeling indicated that the pDEP force using such NEA-based devices can be increased by over 100 times. Experiments indicated that the bacteria can be trapped instantaneously on to the exposed CNF tip with an AC voltage of ~3 V pp . In most cases, a single E. coli bacterium is trapped at a single CNF site due to the screening effect. 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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Arrays Charge carrier processes Electrodes Force Microfluidics Microorganisms Nanobioscience
title	Inlaid Carbon Nanofiber Nanoelectrode Array as Highly Efficient Dielectrophoresis Device for Bacteria Trapping
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