1975
DOI: 10.1080/00268977500103051
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Mean spherical model for asymmetric electrolytes

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Cited by 786 publications
(512 citation statements)
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“…Finally, the Helmholtz energy due to the electrostatic correlations (last line in eq 6) is derived from a quadratic functional expansion of the electrostatic free energy, 44,45 where the direct correlation functions of the uniform reference system are obtained from the mean-spherical approximation. 46 The numerical performance of individual terms in eq 2 has been repeatedly calibrated in our previous publications.…”
Section: Molecular Model and Theorymentioning
confidence: 99%
“…Finally, the Helmholtz energy due to the electrostatic correlations (last line in eq 6) is derived from a quadratic functional expansion of the electrostatic free energy, 44,45 where the direct correlation functions of the uniform reference system are obtained from the mean-spherical approximation. 46 The numerical performance of individual terms in eq 2 has been repeatedly calibrated in our previous publications.…”
Section: Molecular Model and Theorymentioning
confidence: 99%
“…They can be modified for non point ions by a simple change of the inverse DebyeHückel screening parameter κ to a new screening parameter Γ obtained in the mean spherical description of homogeneous ionic systems [18]. Recently [19] contributions in the case of ions.…”
mentioning
confidence: 99%
“…We used a model of charged hard spheres, usually referred to as the primitive model (PM), for which the analytical solution of the OZ equation was given by Blum under the mean-sphere approximation (MSA). 25 We have performed all-atom MD simulations of ionic liquid EMIM + -BF − 4 using the MD package GROMACS. 26 The BF − 4 anion has a tetrahedron structure and a mean size of 0.19 nm, while the EMIM + cation is essentially planar and with a maximum size (taken from methyl to ethyl) of ∼0.69 nm (see Fig.…”
mentioning
confidence: 99%