Journal ArticleDOI
Theory of Molecular Interactions. I. Molecular Orbital Studies of Water Polymers Using a Minimal Slater‐Type Basis
Janet E. Del Bene,John A. Pople +1 more
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In this paper, minimal basis LCAOSCF molecular orbital calculations have been performed to determine the energies and configurations of small groups of water molecules, with particular emphasis on those aspects which are relevant to the structure of liquid water.Abstract:
Ab initio minimal basis LCAOSCF molecular orbital calculations have been performed to determine the energies and configurations of small groups of water molecules, with particular emphasis on those aspects which are relevant to the structure of liquid water. An intermolecular potential which spans the complete range of possible relative orientations for the dimer is presented. The predicted equilibrium form of the dimer is found, together with estimates of some of the intermolecular force constants. Results of calculations on both open and cyclic polymeric water structures containing up to six molecules are included. It is found that polymers having OH···OH···OH··· chains are preferred, and that hydrogen‐bond energies deviate considerably from additivity. Cyclic structures are predicted to be most stable for the trimer and higher polymers.read more
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Journal ArticleDOI
Electronic Population Analysis on LCAO–MO Molecular Wave Functions. I
TL;DR: In this paper, an analysis in quantitative form is given in terms of breakdowns of the electronic population into partial and total ''gross atomic populations'' and ''overlap populations'' for molecules.
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Self‐Consistent Molecular‐Orbital Methods. I. Use of Gaussian Expansions of Slater‐Type Atomic Orbitals
TL;DR: In this article, a least square representation of Slater-type atomic orbitals as a sum of Gaussian-type orbitals is presented, where common Gaussian exponents are shared between Slater−type 2s and 2p functions.
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X-ray diffraction study of liquid water in the temperature range 4–200°C
TL;DR: In this article, the scattering of X-rays from the free surface of liquid water in equilibrium with water vapour has been analyzed at 4, 25, 50, 75, 100, 150 and 200°C.