Crozier, Paul S.; Rowley, Richard L.; Spohr, Eckhard; Henderson, Douglas:
Comparison of charged sheets and corrected 3D Ewald calculations of long-range forces in slab geometry electrolyte systems with solvent molecules
In: The Journal of Chemical Physics (JCP), Vol. 112 (2000), No. 21, pp. 9253 - 9257
2000article/chapter in journal
ChemistryFaculty of Chemistry
Related: 1 publication(s)
Title:
Comparison of charged sheets and corrected 3D Ewald calculations of long-range forces in slab geometry electrolyte systems with solvent molecules
Author:
Crozier, Paul S.;Rowley, Richard L.;Spohr, EckhardUDE
GND
143257005
LSF ID
49123
ORCID
0000-0001-8148-7575ORCID iD
Other
connected with university
;Henderson, Douglas
Year of publication:
2000
WWW URL:
http://scitation.aip.org/journals/doc/JCPSA6-ft/vol_112/iss_21/9253_1.html
Appears in
The Journal of Chemical Physics (JCP)
Title in English (abbreviated):
J. Chem. Phys.
Place of publication:
Melville
Publisher:
American Institute of Physics (AIP)
in:
Vol. 112 (2000), No. 21, pp. 9253 - 9257
ISSN
1089-7690 Show availability online & print
ISSN
0021-9606 Show availability online & print
ZDB ID
1473050-9

Abstract:

Two methods of calculating long-range intermolecular potentials are compared for an approximately 3 M aqueous electrolyte solution confined between two charged surfaces. We investigate the ionic density profiles using the charged-sheets method and the corrected three-dimensional (3D) Ewald method at two different system sizes and also compare the Coulomb forces directly. The corrected 3D Ewald method is recommended for the calculation of long-range potentials in systems of this nature because it is less system size dependent than the charged-sheets method and the resultant forces are more consistent with periodic boundaries. However, the charged-sheets method for estimating long-range potentials in Coulombic systems may be useful for certain applications, and the corrected 3D Ewald method also shows some system size dependence.