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Molecular Simulation Volume 30, 2004 - Issue 2-3: Yangtze Conference on Fluids and Interfaces(Part Three of Three)
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Original Articles

Monte Carlo and Density Functional Theory Study of the Electrical Double Layer: The Dependence of the Charge/Voltage Relation on the Diameter of the Ions

Dezsö Boda* Department of Physical Chemistry, University of Veszprém, P.O. Box 158, H-8201, Veszprém, Hungary
,
Douglas Henderson Department of Chemistry and Biochemistry, Brigham Young University, 84602, Provo, UT, USACorrespondence[email protected]
,
Peter Plaschko‡ Departamento de Fisica, Universidad Autonoma Metropolitana/Iztapalapa, Apartado Postal, México DF, 09340, Mexico
&
W. Ronald Fawcett¶ Department of Chemistry, University of California, 95616, Davis, CA, USA
Pages 137-141 | Received 01 Sep 2002, Accepted 01 Oct 2002, Published online: 17 May 2006

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Teena Goel, Chandra N. Patra, Swapan K. Ghosh & Tulsi Mukherjee. (2009) A self-consistent density-functional approach to the structure of electric double layer: charge-asymmetric electrolytes. Molecular Physics 107:1, pages 19-25.
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Douglas Henderson , Dirk Gillespie, TÍmea Nagy & Dezsö Boda. (2005) Monte Carlo simulation of the electric double layer: dielectric boundaries and the effects of induced charge. Molecular Physics 103:21-23, pages 2851-2861.
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Guomin Yang, Nikolaos I. Prasianakis & Sergey V. Churakov. (2020) Comparative Modeling of Ions and Solvent Properties in Ca-Na Montmorillonite by Atomistic Simulations and Fluid Density Functional Theory. Clays and Clay Minerals 68:2, pages 100-114.
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Rachel Downing, Bjorn K. Berntson, Guilherme V. Bossa & Sylvio May. (2018) Differential capacitance of ionic liquids according to lattice-gas mean-field model with nearest-neighbor interactions. The Journal of Chemical Physics 149:20.
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Guomin Yang & Longcheng Liu. (2015) A systematic comparison of different approaches of density functional theory for the study of electrical double layers. The Journal of Chemical Physics 142:19.
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Fernando Molina. 2013. Soil Colloids. Soil Colloids 27 62 .
Elena Brodskaya. (2012) Role of Water in the Formation of the Electric Double Layer of Micelles. The Journal of Physical Chemistry B 116:19, pages 5795-5800.
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W. Ronald Fawcett. (2011) Fifty years of studies of double layer effects in electrode kinetics—a personal view. Journal of Solid State Electrochemistry 15:7-8, pages 1347-1358.
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W. Ronald Fawcett. (2009) Monte Carlo studies of ion size effects in the diffuse double layer. Electrochimica Acta 54:22, pages 4997-5005.
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G. Iván Guerrero-García, Enrique González-Tovar & Martín Chávez-Páez. (2009) Simulational and theoretical study of the spherical electrical double layer for a size-asymmetric electrolyte: The case of big coions. Physical Review E 80:2.
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Michael B. Partenskii & Peter C. Jordan. (2009) “Squishy capacitor” model for electrical double layers and the stability of charged interfaces. Physical Review E 80:1.
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Alberto Martín-Molina, José G. Ibarra-Armenta & Manuel Quesada-Pérez. (2009) Effect of Ion Dispersion Forces on the Electric Double Layer of Colloids: A Monte Carlo Simulation Study. The Journal of Physical Chemistry B 113:8, pages 2414-2421.
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Michael B. Partenskii & Peter C. Jordan. (2008) Limitations and strengths of uniformly charged double-layer theory: Physical significance of capacitance anomalies. Physical Review E 77:6.
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W. Ronald Fawcett & Thomas G. Smagala. (2008) Examination of ion size effects on the potential drop across the diffuse layer using Monte Carlo simulations. Electrochimica Acta 53:16, pages 5136-5141.
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Vishal Tandon, Sharath K. Bhagavatula, Wyatt C. Nelson & Brian J. Kirby. (2008) Zeta potential and electroosmotic mobility in microfluidic devices fabricated from hydrophobic polymers: 1. The origins of charge. ELECTROPHORESIS 29:5, pages 1092-1101.
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Mónika Valiskó, Douglas Henderson & Dezső Boda. (2007) The capacitance of the electrical double layer of valence-asymmetric salts at low reduced temperatures. Journal of Molecular Liquids 131-132, pages 179-184.
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W. Ronald Fawcett & Thomas G. Smagala. (2006) New Developments in the Theory of the Diffuse Double Layer. Langmuir 22:25, pages 10635-10642.
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Thomas G. Smagala & W. Ronald Fawcett. (2006) A novel differential equation approach to modeling ion size effects in the diffuse double layer. Journal of Electroanalytical Chemistry 597:1, pages 43-50.
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Patricia Taboada-Serrano, Sotira Yiacoumi & Costas Tsouris. (2006) Electrostatic surface interactions in mixtures of symmetric and asymmetric electrolytes: A Monte Carlo study. The Journal of Chemical Physics 125:5.
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W.R. Fawcett. 2006. Surface Complexation Modelling. Surface Complexation Modelling 112 132 .
M. Quesada-Pérez, A. Martín-Molina & R. Hidalgo-Álvarez. (2005) Simulation of Electric Double Layers Undergoing Charge Inversion:  Mixtures of Mono- and Multivalent Ions. Langmuir 21:20, pages 9231-9237.
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Patricia Taboada-Serrano, Sotira Yiacoumi & Costas Tsouris. (2005) Behavior of mixtures of symmetric and asymmetric electrolytes near discretely charged planar surfaces: A Monte Carlo study. The Journal of Chemical Physics 123:5.
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G. Iván Guerrero-García, Enrique González-Tovar, Marcelo Lozada-Cassou & F. de J. Guevara-Rodríguez. (2005) The electrical double layer for a fully asymmetric electrolyte around a spherical colloid: An integral equation study. The Journal of Chemical Physics 123:3.
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W. Ronald Fawcett & Thomas G. Smagala. (2005) Assessment of Ion Size Effects in the Diffuse Double Layer with Use of an Integral Equation Approach. The Journal of Physical Chemistry B 109:5, pages 1930-1935.
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Mónika Valiskó, Douglas Henderson & Dezső Boda. (2004) Competition between the Effects of Asymmetries in Ion Diameters and Charges in an Electrical Double Layer Studied by Monte Carlo Simulations and Theories. The Journal of Physical Chemistry B 108:42, pages 16548-16555.
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L. Bari Bhuiyan & Christopher W. Outhwaite. (2004) Comparison of the modified Poisson–Boltzmann theory with recent density functional theory and simulation results in the planar electric double layer. Phys. Chem. Chem. Phys. 6:13, pages 3467-3473.
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