Electrostatic potentials for metal-oxide surfaces and interfaces

15 October 1994

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 50 (16), 11996-12003
https://doi.org/10.1103/physrevb.50.11996

Abstract

As most technologically important metals will form oxides readily, any complete study of adhesion at real metal surfaces must include the metal-oxide interface. The role of this ubiquitous oxide layer cannot be overlooked, as the adhesive properties of the oxide or oxide-metal system can be expected to differ profoundly from the adhesive properties of a bare metal surface. We report on the development of a computational method for molecular-dynamics simulations, which explicitly includes variable charge transfer between anions and cations. This method is found to be capable of describing the elastic properties, surface energies, and surface relaxation of crystalline metal oxides accurately. We discuss in detail results using this method for α-alumina and several of its low-index faces.

Keywords

This publication has 42 references indexed in Scilit:

Charge equilibration for molecular dynamics simulations
The Journal of Physical Chemistry, 1991
Electronegativity-equalization method for the calculation of atomic charges in molecules
Journal of the American Chemical Society, 1986
Electronegativity equalization: application and parametrization
Journal of the American Chemical Society, 1985
Absolute hardness: companion parameter to absolute electronegativity
Journal of the American Chemical Society, 1983
Defect energetics in $α$ - ${Al}_{2}$ $O_{3}$ and rutile Ti $O_{2}$
Physical Review B, 1982
Electronegativity: The density functional viewpoint
The Journal of Chemical Physics, 1978
Shell-model calculation of some point-defect properties in $α - {Al}_{2} O_{3}$
Physical Review B, 1975
Electronegativity
Journal of the American Chemical Society, 1961
A Study of Two-Center Integrals Useful in Calculations on Molecular Structure. I
The Journal of Chemical Physics, 1951
Calculation of Interaction between Atoms with s-Electrons
Physical Review B, 1931

Cited by 325 articles