Space-time resolved electrokinetics in cylindrical and semi-cylindrical   microchannels

Michele Campisi

arXiv:0705.0514·cond-mat.soft·May 23, 2007

Space-time resolved electrokinetics in cylindrical and semi-cylindrical microchannels

Michele Campisi

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TL;DR

This paper introduces a method using Bessel-Fourier series to achieve a comprehensive space-time analysis of electrokinetic effects in cylindrical and semi-cylindrical microchannels.

Contribution

It presents a novel application of Bessel-Fourier series for detailed electrokinetic modeling in specific microchannel geometries.

Findings

01

Complete space-time resolved electrokinetic descriptions obtained.

02

Method applicable to cylindrical and semi-cylindrical microchannels.

03

Enhances understanding of electrokinetic phenomena in microfluidics.

Abstract

It is shown show how to employ Bessel-Fourier series in order to obtain a complete space-time resolved description of electrokinetic phenomena in cylindrical and semi-cylindrical microfluidic channels.

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Taxonomy

TopicsGeophysical and Geoelectrical Methods · Nanopore and Nanochannel Transport Studies · Electrokinetic Soil Remediation Techniques