Abstract
Electrostatic interactions derived from floating basis HF/D95** ab initio calculations are presented for a tetrahedral water pentamer. Since floating basis ab initio calculations approximately satisfy the Hellmann−Feynman theorem, indicating that the forces on the nuclei can be calculated classically; and, since the wave function of the pentamer includes all polarization and mutual polarization effects, the intermolecular interactions can be calculated classically by using molecular properties extracted from the wave function of the aggregate. We compare classical interactions based upon floating basis functions, as well as analogous interactions based upon normal (nonfloating) Hartree−Fock calculations with supermolecular interaction energies and pairwise interactions. We also compare classical electrostatic calculations based upon interacting point charges with those based upon interactions of charges one molecule with the electric field of the others. We show that the latter method (which is free of pe...
Published Version
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