Charged Polymers Transport under Applied Electric Fields in Periodic Channels

Charged Polymers Transport under Applied Electric Fields in Periodic Channels

By molecular dynamics simulations, we investigated the transport of charged polymers in applied electric fields in confining environments, which were straight cylinders of uniform or non-uniform diameter. In the simulations, the solvent was modeled explicitly and, also, the counterions and coions of...

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Main Authors: Sorin Nedelcu, Jens-Uwe Sommer
Format: Article
Language:English
Published: MDPI AG 2013-07-01
Series:Materials
Subjects:
molecular dynamics
polyelectrolytes
confinement
Online Access:http://www.mdpi.com/1996-1944/6/7/3007
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spelling doaj-1d896cea069d4b848df1c131a3a072992020-11-24T23:40:18ZengMDPI AGMaterials1996-19442013-07-01673007302110.3390/ma6073007Charged Polymers Transport under Applied Electric Fields in Periodic ChannelsSorin NedelcuJens-Uwe SommerBy molecular dynamics simulations, we investigated the transport of charged polymers in applied electric fields in confining environments, which were straight cylinders of uniform or non-uniform diameter. In the simulations, the solvent was modeled explicitly and, also, the counterions and coions of added salt. The electrophoretic velocities of charged chains in relation to electrolyte friction, hydrodynamic effects due to the solvent, and surface friction were calculated. We found that the velocities were higher if counterions were moved away from the polymeric domain, which led to a decrease in hydrodynamic friction. The topology of the surface played a key role in retarding the motion of the polyelectrolyte and, even more so, in the presence of transverse electric fields. The present study showed that a possible way of improving separation resolution is by controlling the motion of counterions or electrolyte friction effects.http://www.mdpi.com/1996-1944/6/7/3007molecular dynamicspolyelectrolytesconfinement
collection DOAJ
language English
format Article
sources DOAJ
author Sorin Nedelcu
Jens-Uwe Sommer
spellingShingle Sorin Nedelcu
Jens-Uwe Sommer
Charged Polymers Transport under Applied Electric Fields in Periodic Channels
Materials
molecular dynamics
polyelectrolytes
confinement
author_facet Sorin Nedelcu
Jens-Uwe Sommer
author_sort Sorin Nedelcu
title Charged Polymers Transport under Applied Electric Fields in Periodic Channels
title_short Charged Polymers Transport under Applied Electric Fields in Periodic Channels
title_full Charged Polymers Transport under Applied Electric Fields in Periodic Channels
title_fullStr Charged Polymers Transport under Applied Electric Fields in Periodic Channels
title_full_unstemmed Charged Polymers Transport under Applied Electric Fields in Periodic Channels
title_sort charged polymers transport under applied electric fields in periodic channels
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2013-07-01
description By molecular dynamics simulations, we investigated the transport of charged polymers in applied electric fields in confining environments, which were straight cylinders of uniform or non-uniform diameter. In the simulations, the solvent was modeled explicitly and, also, the counterions and coions of added salt. The electrophoretic velocities of charged chains in relation to electrolyte friction, hydrodynamic effects due to the solvent, and surface friction were calculated. We found that the velocities were higher if counterions were moved away from the polymeric domain, which led to a decrease in hydrodynamic friction. The topology of the surface played a key role in retarding the motion of the polyelectrolyte and, even more so, in the presence of transverse electric fields. The present study showed that a possible way of improving separation resolution is by controlling the motion of counterions or electrolyte friction effects.
topic molecular dynamics
polyelectrolytes
confinement
url http://www.mdpi.com/1996-1944/6/7/3007
work_keys_str_mv AT sorinnedelcu chargedpolymerstransportunderappliedelectricfieldsinperiodicchannels
AT jensuwesommer chargedpolymerstransportunderappliedelectricfieldsinperiodicchannels
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