Screening of charged spheroidal colloidal particles

Carlos Lvarez; Gabriel T́llez

doi:10.1063/1.3486558

Screening of charged spheroidal colloidal particles

Carlos Lvarez, Gabriel T́llez

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22 Citas (Scopus)

Resumen

We study the effective screened electrostatic potential created by a spheroidal colloidal particle immersed in an electrolyte, within the mean field approximation, using Poisson-Boltzmann equation in its linear and nonlinear forms, and also beyond the mean field by means of Monte Carlo computer simulation. The anisotropic shape of the particle has a strong effect on the screened potential, even at large distances (compared to the Debye length) from it. To quantify this anisotropy effect, we focus our study on the dependence of the potential on the position of the observation point with respect with the orientation of the spheroidal particle. For several different boundary conditions (constant potential, or constant surface charge) we find that, at large distance, the potential is higher in the direction of the large axis of the spheroidal particle.

Idioma original	Inglés estadounidense
Número de artículo	144908
Publicación	Journal of Chemical Physics
Volumen	133
N.º	14
DOI	https://doi.org/10.1063/1.3486558
Estado	Publicada - oct. 14 2010
Publicado de forma externa	Sí

Áreas temáticas de ASJC Scopus

Física y Astronomía General
Química física y teórica

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title = "Screening of charged spheroidal colloidal particles",

abstract = "We study the effective screened electrostatic potential created by a spheroidal colloidal particle immersed in an electrolyte, within the mean field approximation, using Poisson-Boltzmann equation in its linear and nonlinear forms, and also beyond the mean field by means of Monte Carlo computer simulation. The anisotropic shape of the particle has a strong effect on the screened potential, even at large distances (compared to the Debye length) from it. To quantify this anisotropy effect, we focus our study on the dependence of the potential on the position of the observation point with respect with the orientation of the spheroidal particle. For several different boundary conditions (constant potential, or constant surface charge) we find that, at large distance, the potential is higher in the direction of the large axis of the spheroidal particle.",

author = "Carlos Lvarez and Gabriel {\'T}llez",

note = "Funding Information: The authors thank E. Trizac for useful discussions. Partial financial support from ECOS-Nord/COLCIENCIAS-MEN-ICETEX and from Comit{\'e} de Investigaciones y Posgrados, Facultad de Ciencias, Universidad de los Andes are acknowledged. The numerical computations were performed using IDRIS (Institut du D{\'e}veloppement et des Ressources en Informatique Scientifique) resources under Project No. CP9-092104. Copyright: Copyright 2010 Elsevier B.V., All rights reserved.",

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PY - 2010/10/14

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N2 - We study the effective screened electrostatic potential created by a spheroidal colloidal particle immersed in an electrolyte, within the mean field approximation, using Poisson-Boltzmann equation in its linear and nonlinear forms, and also beyond the mean field by means of Monte Carlo computer simulation. The anisotropic shape of the particle has a strong effect on the screened potential, even at large distances (compared to the Debye length) from it. To quantify this anisotropy effect, we focus our study on the dependence of the potential on the position of the observation point with respect with the orientation of the spheroidal particle. For several different boundary conditions (constant potential, or constant surface charge) we find that, at large distance, the potential is higher in the direction of the large axis of the spheroidal particle.

AB - We study the effective screened electrostatic potential created by a spheroidal colloidal particle immersed in an electrolyte, within the mean field approximation, using Poisson-Boltzmann equation in its linear and nonlinear forms, and also beyond the mean field by means of Monte Carlo computer simulation. The anisotropic shape of the particle has a strong effect on the screened potential, even at large distances (compared to the Debye length) from it. To quantify this anisotropy effect, we focus our study on the dependence of the potential on the position of the observation point with respect with the orientation of the spheroidal particle. For several different boundary conditions (constant potential, or constant surface charge) we find that, at large distance, the potential is higher in the direction of the large axis of the spheroidal particle.

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Screening of charged spheroidal colloidal particles

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