Intermolecular potential of the methane dimer and trimer
- 15 September 1990
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 93 (6) , 4243-4253
- https://doi.org/10.1063/1.458757
Abstract
The Heitler–London (HL) exchange energy is responsible for the anisotropy of the pair potential in methane. The equilibrium dimer structure is that which minimizes steric repulsion between hydrogens belonging to opposite subsystems. Dispersion energy, which represents a dominating attractive contribution, displays an orientation dependence which is the mirror image of that for HL exchange. The three‐body correction to the pair potential is a superposition of HL and second‐order exchange nonadditivities combined with the Axilrod–Teller dispersion nonadditivity. A great deal of cancellation between these terms results in near additivity of methane interactions in the long and intermediate regions.Keywords
This publication has 38 references indexed in Scilit:
- Potential energy surface for dispersion interaction in water dimer and hydrogen fluoride dimerThe Journal of Physical Chemistry, 1990
- Anisotropic dispersion forces in methane mixturesMolecular Physics, 1989
- Interpretation of the Hartree-Fock interaction energy between closed-shell systemsMolecular Physics, 1988
- On the connection between the supermolecular Møller-Plesset treatment of the interaction energy and the perturbation theory of intermolecular forcesMolecular Physics, 1988
- A simple treatment of intermolecular interactions: Synthesis of ab initio calculations and combination rulesInternational Journal of Quantum Chemistry, 1983
- Three‐body potential energy terms for methane trimersInternational Journal of Quantum Chemistry, 1981
- Interaction of methane moleculesInternational Journal of Quantum Chemistry, 1980
- Reflections on the scientific career of Jeremy MusherInternational Journal of Quantum Chemistry, 1976
- Møller–Plesset theory for atomic ground state energiesInternational Journal of Quantum Chemistry, 1975
- X-ray investigation of the structure transition of methane at the λ pointProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1939