Search

Your search keyword '"Williams, Jack"' showing total 18 results
Start Over Author "Williams, Jack" Journal journal of chemical physics
18 results on '"Williams, Jack"'

1. Interaction energies associated with short intermolecular contacts of C–H bonds. Ab initio computational study of the C–H···O contact interaction in CH4···OH2.

Author

Novoa, Juan J., Tarron, Benito, Whangbo, Myung-Hwan, and Williams, Jack M.

Subjects
INTERMOLECULAR forces, MOLECULAR orbitals, HYDROGEN bonding, CHEMICAL bonds
Abstract

To accurately evaluate the C–H···O contact interaction energy, ab initio calculations were performed on CH4···OH2 at the self-consistent-field molecular orbital (SCF-MO) and MP2 levels with various quality basis sets including a near Hartree–Fock limit (HFL) one. The interaction energies calculated with truncated basis sets have small basis set superposition errors and become close to the near HFL results only when they include diffuse functions. This is attributed to the necessity of properly representing the lone pair electrons of oxygen that make short contact interaction with the C–H bond. Our MP2 calculations suggest that the conformation of CH4···OH2 with one C–H···O contact is the only minimum-energy structure. At the MP2 level with the near HFL basis set, the binding energy of CH4···OH2 is calculated to be 0.59±0.05 kcal/mol. The potential energy curves of CH4···OH2 calculated as functions of the H···O contact angles are consistent with the observation that the most frequently found H···O contact angles of organic solids are in the range |[lowercase_phi_synonym]|≤∼60° and |θ|≤∼30°. [ABSTRACT FROM AUTHOR]

Published
1991
Full Text
View/download PDF

2. Interactions energies associated with short intermolecular contacts of C–H bonds. II. Ab initio computational study of the C–H···H–C interactions in methane dimer.

Author

Novoa, Juan J., Whangbo, Myung-Hwan, and Williams, Jack M.

Subjects
METHANE, VAN der Waals forces, CARBON, HYDROGEN, POTENTIAL energy surfaces
Abstract

On the basis of single-and multireference ab initio calculations on (Be)2 and (H2)2, we suggest that van der Waals systems with large highest occupied molecular orbital–lowest unoccupied molecular orbital gap can be reasonably well described by single reference MPn (n=2–4) calculations if the basis set is large enough. The binding energies of C–H···H–C contacts are then examined by performing single reference MPn calculations on (CH4)2 dimer. Our study shows that (CH4)2 is bound in all possible CH4···CH4 arrangements, and that those arrangements with more than one C–H···H–C contact lead to a greater amount of stabilization than does the arrangement with one C–H···H–C contact. The potential energy curves obtained for staggered arrangements of (CH4)2 by the MP2 calculations with the 6-311G(2d,2p) basis set are in close agreement with the experimentally deduced, isotropic potential curve. [ABSTRACT FROM AUTHOR]

Published
1991
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results