Monte Carlo and HNC/MSA results for an asymmetrical electrolyte in an external electrical field of spherical geometry
- 1 November 1995
- journal article
- research article
- Published by Taylor & Francis in Molecular Physics
- Vol. 86 (4) , 759-768
- https://doi.org/10.1080/00268979500102351
Abstract
Results are reported from Monte Carlo (MC) simulations for a model asymmetrical electrolyte, in an external electrical field of spherical geometry. Calculations were made for various 2:1 and 1:2 electrolyte concentrations and field parameters. The hypernetted chain/mean spherical equation (HNC/MSA) is solved for 1:2 and 2:1 salts. The MC results are compared with those from HNC/MSA, the fifth version of the modified Poisson-Boltzmann (MPB5), and Poisson-Boltzmann (PB) theories. Good overall agreement between HNC/MSA and MPB5 results and the MC data is found. On the other hand, the widely used PB theory is found to have important quantitative and qualitative differences from the MC results.Keywords
This publication has 19 references indexed in Scilit:
- Monte Carlo simulation for a symmetrical electrolyte next to a charged spherical colloid particleThe Journal of Chemical Physics, 1993
- The spherical double layer: a hypernetted chain mean spherical approximation calculation for a model spherical colloid particleThe Journal of Physical Chemistry, 1989
- Ionic atmosphere of rodlike polyelectrolytes. A hypernetted chain studyThe Journal of Physical Chemistry, 1984
- Hypernetted chain theory for the distribution of ions around a cylindrical electrodeThe Journal of Physical Chemistry, 1983
- The application of the hypernetted chain approximation to the electrical double layer. Comparison with Monte Carlo results for 2:1 and 1:2 saltsThe Journal of Physical Chemistry, 1983
- The application of the hypernetted chain approximation to the electrical double layer: Comparison with Monte Carlo results for symmetric saltsThe Journal of Chemical Physics, 1982
- Comments on ‘‘A new method of deriving electrical double layer equations from electrolyte theories’’The Journal of Chemical Physics, 1982
- Electron spin resonance study of the 2-adamantyl radicalThe Journal of Physical Chemistry, 1982
- A new method of deriving electrical double layer equations from electrolyte theoriesThe Journal of Chemical Physics, 1981
- A simple procedure for deriving an electrical double layer equation from the Born—Green—Yvon theoryChemical Physics Letters, 1981