Physics – Computational Physics
Scientific paper
2008-01-18
Physics
Computational Physics
19 pages, 5 figures
Scientific paper
The interaction energy between a water molecule and graphitic structured clusters terminated by hydrogen atoms is analyzed by ab initio methods and decomposed into electrostatic, induction, Pauli repulsion, and correlation energy contributions. Contributions to the energy which are due solely to the perimeter of the clusters are identified. These can be isolated and discarded which greatly simplifies the problem of extrapolation to the large cluster limit. The remaining terms are intrinsic to the interaction of a water molecule with real graphitic layers and an explicit analytical form is given for the potential energy surface. The minimum energy configuration is found to have both hydrogen atoms of the water molecule pointing symmetrically away from the graphitic plane. The electronic interaction in this mode is -16.8 +/- 1.7 kJ/mol for water-graphite and the zero point energy is estimated as 1.3 kJ/mol.
Chylek Petr
Lesins Glen
Sudiarta Wayan I.
Wallace Geldart D. J.
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