Effects of Dissimilar Electrode Materials and Electrode Position on DNA Motion During Electrophoresis

Regis A. David; Justin L. Black; Larry L. Howell; Sandra H. Burnett; Brian D. Jensen

Source: Journal of Nanotechnology in Engineering and Medicine:;2011:;volume( 002 ):;issue: 002::page 21014

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DOI: 10.1115/1.4003600

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Electrophoretic systems commonly use metal electrodes in their construction. This paper explores and reports the differences in the electrophoretic motion of DNA (decomposition voltage, electrical field, etc.) when one electrode is constructed from a semiconductor, silicon, rather than metal. Experimental VI (voltage-current) curves for different electrode configurations (using steel and silicon) are presented. Experimental results are used to update and validate the mathematical model to reflect the differences in material selection. In addition, the model predicts large curved-field motion for DNA motion. The model helps to quantify the effect of parameters on DNA motion in biological microelectromechanical systems in order to improve device designs and protocols.

keyword(s): Electrophoresis , Electrodes , DNA , Steel , Electric fields AND Silicon ,

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Effects of Dissimilar Electrode Materials and Electrode Position on DNA Motion During Electrophoresis

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contributor author	Regis A. David
contributor author	Justin L. Black
contributor author	Larry L. Howell
contributor author	Sandra H. Burnett
contributor author	Brian D. Jensen
date accessioned	2017-05-09T00:46:22Z
date available	2017-05-09T00:46:22Z
date copyright	May, 2011
date issued	2011
identifier issn	1949-2944
identifier other	JNEMAA-28057#021014_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/147325
description abstract	Electrophoretic systems commonly use metal electrodes in their construction. This paper explores and reports the differences in the electrophoretic motion of DNA (decomposition voltage, electrical field, etc.) when one electrode is constructed from a semiconductor, silicon, rather than metal. Experimental VI (voltage-current) curves for different electrode configurations (using steel and silicon) are presented. Experimental results are used to update and validate the mathematical model to reflect the differences in material selection. In addition, the model predicts large curved-field motion for DNA motion. The model helps to quantify the effect of parameters on DNA motion in biological microelectromechanical systems in order to improve device designs and protocols.
publisher	The American Society of Mechanical Engineers (ASME)
title	Effects of Dissimilar Electrode Materials and Electrode Position on DNA Motion During Electrophoresis
type	Journal Paper
journal volume	2
journal issue	2
journal title	Journal of Nanotechnology in Engineering and Medicine
identifier doi	10.1115/1.4003600
journal fristpage	21014
identifier eissn	1949-2952
keywords	Electrophoresis
keywords	Electrodes
keywords	DNA
keywords	Steel
keywords	Electric fields AND Silicon
tree	Journal of Nanotechnology in Engineering and Medicine:;2011:;volume( 002 ):;issue: 002
contenttype	Fulltext

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