Condensed Matter Physics, 2021, vol. 24, No. 2, 23801
DOI:10.5488/CMP.24.23801
arXiv:2106.13636
Title:
Structure and thermodynamics in the linear modified Poisson-Boltzmann theories in restricted primitive model electrolytes
Author(s):
 
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L. B. Bhuiyan
(Laboratory of Theoretical Physics, Department of Physics, University of Puerto Rico, 17 Avenida Universidad, STE 1701, San Juan, Puerto Rico 00925-2537, USA)
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Structure and thermodynamics in restricted primitive model electrolytes are examined using three recently developed versions of a linear form of the modified Poisson-Boltzmann equation. Analytical expressions for the osmotic coefficient and the electrical part of the mean activity coefficient are obtained and the results for the osmotic and the mean activity coefficients are compared with that from the more established mean spherical approximation, symmetric Poisson-Boltzmann, modified Poisson-Boltzmann theories, and available Monte Carlo simulation results. The linear theories predict the thermodynamics to a remarkable degree of accuracy relative to the simulations and are consistent with the mean spherical approximation and modified Poisson-Boltzmann results. The predicted structure in the form of the radial distribution functions and the mean electrostatic potential also compare well with the corresponding results from the formal theories. The excess internal energy and the electrical part of the mean activity coefficient are shown to be identical analytically for the mean spherical approximation and the linear modified Poisson-Boltzmann theories.
Key words:
restricted primitive model, structure, osmotic coefficient, activity coefficient,
linear modified Poisson-Boltzmann theory
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