Individual ion species chemical potentials in the Mean Spherical Approximation

Article Chemistry, Physical

Electrostatic correlations in electrolytes: Contribution of screening ion interactions to the excess chemical potential

Dirk Gillespie et al.

Summary: The new theory MCSA for the electrostatic component of the chemical potential in homogeneous electrolytes models interactions between ions' screening clouds, contributing substantially at molar concentrations and being accurate even in low dielectric constants. Different from Debye-Huckel and MSA theories, the MCSA has simpler formulas and is qualitatively more accurate, especially when there is ion size asymmetry.

JOURNAL OF CHEMICAL PHYSICS (2021)

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Article Chemistry, Physical

Chemical potential of an ion in an asymmetric electrolyte within the mean spherical approximation (MSA)

Johan S. Hoye et al.

Summary: The study focuses on the known solution of the mean spherical approximation (MSA) for the primitive model of an electrolyte with charged hard spheres of unequal diameters. It gives details of the non-trivial evaluation of chemical potentials and shows that consistent results can be obtained through different independent ways. The rederivation of results aims to provide a firmer basis and insight for obtaining correct and consistent thermodynamics in the presence of polar particles in the MSA electrolyte.

MOLECULAR PHYSICS (2021)

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Article Physics, Condensed Matter

Shells of charge: a density functional theory for charged hard spheres

Roland Roth et al.

JOURNAL OF PHYSICS-CONDENSED MATTER (2016)

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Article Chemistry, Physical

Analyzing the components of the free-energy landscape in a calcium selective ion channel by Widom's particle insertion method

Dezso Boda et al.

JOURNAL OF CHEMICAL PHYSICS (2011)

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Article Chemistry, Physical

An efficient iterative grand canonical Monte Carlo algorithm to determine individual ionic chemical potentials in electrolytes

Attila Malasics et al.

JOURNAL OF CHEMICAL PHYSICS (2010)

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Article Physics, Condensed Matter

Coupling Poisson-Nernst-Planck and density functional theory to calculate ion flux

D Gillespie et al.

JOURNAL OF PHYSICS-CONDENSED MATTER (2002)

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Individual ion species chemical potentials in the Mean Spherical Approximation

Related references

Electrostatic correlations in electrolytes: Contribution of screening ion interactions to the excess chemical potential

Chemical potential of an ion in an asymmetric electrolyte within the mean spherical approximation (MSA)

Shells of charge: a density functional theory for charged hard spheres

Analyzing the components of the free-energy landscape in a calcium selective ion channel by Widom's particle insertion method

An efficient iterative grand canonical Monte Carlo algorithm to determine individual ionic chemical potentials in electrolytes

Coupling Poisson-Nernst-Planck and density functional theory to calculate ion flux

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