Evaluation of charge penetration between distributed multipolar expansions
- 1 May 2000
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 112 (17) , 7300-7306
- https://doi.org/10.1063/1.481370
Abstract
A formula to calculate the charge penetration energy that results when two charge densities overlap has been derived for molecules described by an effective fragment potential (EFP). The method has been compared with the ab initio charge penetration, taken to be the difference between the electrostatic energy from a Morokuma analysis and Stone’s Distributed Multipole Analysis. The average absolute difference between the EFP method and the ab initio charge penetration for dimers of methanol, acetonitrile, acetone, DMSO, and dichloromethane at their respective equilibrium geometries is 0.32 kcal mol−1.Keywords
This publication has 19 references indexed in Scilit:
- Study of Small Water Clusters Using the Effective Fragment Potential ModelThe Journal of Physical Chemistry A, 1998
- An approximate formula for the intermolecular Pauli repulsion between closed shell molecules. II. Application to the effective fragment potential methodThe Journal of Chemical Physics, 1998
- The effective fragment model for solvation: Internal rotation in formamideThe Journal of Chemical Physics, 1996
- An approximate formula for the intermolecular Pauli repulsion between closed shell moleculesMolecular Physics, 1996
- An effective fragment method for modeling solvent effects in quantum mechanical calculationsThe Journal of Chemical Physics, 1996
- General atomic and molecular electronic structure systemJournal of Computational Chemistry, 1993
- A model for the geometries of Van der Waals complexesCanadian Journal of Chemistry, 1985
- A new expansion for dispersion forces and its applicationJournal of Physics B: Atomic and Molecular Physics, 1976
- A simple but reliable method for the prediction of intermolecular potentialsChemical Physics Letters, 1975
- Molecular quadrupole momentsQuarterly Reviews, Chemical Society, 1959