Modeling of the Ionized Fluid Flow through a Cone-Shaped Nanopore

Abstract:

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Theoretical analysis of the ionized fluid flowing through a cone-shaped nanopore is presented. The internal cross section of the cone-shaped channel is in the range from micro- to nanometer and gradual change from larger to smaller than the Debye length for the ions. The model is developed to predict the ionized fluid flow behaviors in cone-shaped micro/nanochannels. The velocity profiles of ion flow that occur in nanopores are obtained.

Info:

Periodical:

Solid State Phenomena (Volumes 121-123)

Edited by:

Chunli BAI, Sishen XIE, Xing ZHU

Pages:

1089-1092

DOI:

10.4028/www.scientific.net/SSP.121-123.1089

Citation:

J. Z. Fu et al., "Modeling of the Ionized Fluid Flow through a Cone-Shaped Nanopore", Solid State Phenomena, Vols. 121-123, pp. 1089-1092, 2007

Online since:

March 2007

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Price:

$35.00

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