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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 27, 1974 - Issue 3
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Original Articles

Higher-order closures and potential problems in diffuse double layer and strong electrolyte solution theory

C.W. Outhwaite Department of Applied Mathematics and Computing Science, The University, Sheffield, S10 2TN
Pages 561-575 | Received 21 May 1973, Published online: 22 Aug 2006

Citations (21)

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Read on this site (3)

M. QUESADA-PEREZ, A. MARTIN-MOLINA, F. GALISTEO-GONZALEZ & R. HIDALGO-ALVAREZ. (2002) Electrophoretic mobility of model colloids and overcharging: theory and experiment. Molecular Physics 100:18, pages 3029-3039.
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M.M. Thomlinson & C.W. Outhwaite. (1979) Numerical study of a modified BBGY integral equation for the primitive model of an electrolyte solution. Molecular Physics 38:3, pages 941-962.
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C.W. Outhwaite. (1974) Potential theory of strong electrolyte solutions using the Bogoliubov-Born-Green-Yvon integral equations. Molecular Physics 28:1, pages 217-224.
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Articles from other publishers (18)

Anis Allagui, Hachemi Benaoum & Oleg Olendski. (2021) On the Gouy–Chapman–Stern model of the electrical double-layer structure with a generalized Boltzmann factor. Physica A: Statistical Mechanics and its Applications 582, pages 126252.
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Dan Fraenkel. (2010) Monoprotic Mineral Acids Analyzed by the Smaller-Ion Shell Model of Strong Electrolyte Solutions. The Journal of Physical Chemistry B 115:3, pages 557-568.
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Magdalena Gruziel, Pawel Grochowski & Joanna Trylska. (2008) The Poisson‐Boltzmann model for tRNA: Assessment of the calculation set‐up and ionic concentration cutoff. Journal of Computational Chemistry 29:12, pages 1970-1981.
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Paweł Grochowski & Joanna Trylska. (2008) Continuum molecular electrostatics, salt effects, and counterion binding—A review of the Poisson–Boltzmann theory and its modifications. Biopolymers 89:2, pages 93-113.
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Sergei Gavryushov & Piotr Zielenkiewicz. (1999) Electrostatics of a DNA-like Polyelectrolyte:  Effects of Solvent Dielectric Saturation and Polarization of Ion Hydration Shells. The Journal of Physical Chemistry B 103:28, pages 5860-5868.
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Jianwen Jiang, Honglai Liu & Ying Hu. (1999) Polyelectrolyte solutions with stickiness between polyions and counterions. The Journal of Chemical Physics 110:10, pages 4952-4962.
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John Eggebrecht & Pelin Ozler. (1993) Multipolar electrolyte solution models. IV. Thermodynamic perturbation theory. The Journal of Chemical Physics 98:2, pages 1552-1565.
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L.B. Bhuiyan, C.W. Outhwaite & D. Bratko. (1992) Structure and thermodynamics of micellar solutions in the modified Poisson—Boltzmann theory. Chemical Physics Letters 193:4, pages 203-210.
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Barton B. Smith & Carl A. Koval. (1991) Some interrelationships of inhomogeneous theories in the weak coupling limit pertinent to describing electrical interactions at interfaces. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 319:1-2, pages 19-31.
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Christopher W. Outhwaite, Miguel Molero & Lutful B. Bhuiyan. (1991) Symmetrical Poisson–Boltzmann and modified Poisson–Boltzmann theories. J. Chem. Soc., Faraday Trans. 87:19, pages 3227-3230.
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T. Alts, P. Nielaba, B. D'Aguanno & F. Forstmann. (1987) A local density functional approximation for the ion distribution near a charged electrode in the restricted primitive model electrolyte. Chemical Physics 111:2, pages 223-240.
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Douglas Henderson. 1986. Trends in Interfacial Electrochemistry. Trends in Interfacial Electrochemistry 473 521 .
Steven L. Carnie & Glenn M. Torrie. 1984. Advances in Chemical Physics. Advances in Chemical Physics 141 253 .
W.G Kleijn & L.J Bruner. (1983) Derivation of the Poisson—Boltzmann equation by minimization of the helmholtz free energy using a variational principle. Journal of Colloid and Interface Science 96:1, pages 20-27.
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G. M. Torrie & J. P. Valleau. (1980) Electrical double layers. I. Monte Carlo study of a uniformly charged surface. The Journal of Chemical Physics 73:11, pages 5807-5816.
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John P. Valleau, L. Kenneth Cohen & Damon N. Card. (1980) Primitive model electrolytes. II. The symmetrical electrolyte. The Journal of Chemical Physics 72:11, pages 5942-5954.
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G.M. Torrie & J.P. Valleau. (1979) A Monte Carlo study of an electrical double layer. Chemical Physics Letters 65:2, pages 343-346.
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Samuel Levine & Gérard R. Féat. 1976. Hydrosols and Rheology. Hydrosols and Rheology 15 28 .

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