Adsorption of Water and Methanol on Silica Hydroxyls:  Ab Initio Energy and Frequency Calculations

Adsorption of Water and Methanol on Silica Hydroxyls:  Ab Initio Energy and Frequency Calculations

Two hypothetical mechanisms proposed in the literature for the coordination of H2O and CH3OH on the isolated silica OH group are reexamined by computations on the related molecular models at SCF, MP2, and DFT levels. The computed energies suggest that these molecules stabilize on the isolated OH gro...

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Bibliographic Details
Published in:The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Vol. 101; no. 6; pp. 1178 - 1187
Main Authors: Pelmenschikov, A. G, Morosi, G, Gamba, A
Format: Journal Article
Language:English
Published: American Chemical Society 06-02-1997
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Summary:Two hypothetical mechanisms proposed in the literature for the coordination of H2O and CH3OH on the isolated silica OH group are reexamined by computations on the related molecular models at SCF, MP2, and DFT levels. The computed energies suggest that these molecules stabilize on the isolated OH group by means of two hydrogen bonds, acting as a proton acceptor toward the silica OH group and as a proton donor toward a nearby SiOSi bridge. The alternative surface structures, with H2O and CH3OH acting exclusively as a proton acceptor toward the isolated OH group, are found to be less stable by ∼8 kJ/mol. The check of these mechanisms against experimental IR data using the computed frequency shifts of CH3OH upon the adsorption supports these results. The ab initio calculations suggest no significant difference in mechanism between the adsorptions on the isolated and geminal OH groups of silica. When stabilizing on a geminal OH group, H2O and CH3OH can form the extra hydrogen bond not only with the nearby SiOSi bridge but also with the complementary geminal OH group.
Bibliography:ark:/67375/TPS-F6ZN94P1-C
Abstract published in Advance ACS Abstracts, January 1, 1997.
istex:AE9A514F962843A8DBC0D7AF587B26A62DE4C7A4
ISSN:1089-5639
1520-5215
DOI:10.1021/jp963105q