Journal of Analytical Chemistry.
Vol. 55.
2000.
P. 142-145
INS study of intermolecular interaction at the silicone-fumed silica interface
Surface vibrations of a varied-surface-silylation-degree of silylated fumed silica fine particles as well as the vibrations of a five-member polydimethylsiloxane oligomer Si5 adsorbed at different coverage on hydroxylated and silylated fumed silica have been studied by INS at low temperature and by DRIFT at ambient one. The changes in the AWDS spectra are recorded which might be attributed to sterical restrains caused by the densification of the trimethylsiloxy units packing on the surface of the silylated particles at the silylation degree exceeding 2.6, to immobilization of the adsorbed molecules on the surface, as well as to the pressure effect on the TMS units of substrate caused by adsorbed molecules. Assignment of the observed spectra is done on the basis of the solution of the direct and inverse spectral problems with the force field initially determined quantum-chemically.
Authors
Sheka E.
1
,
Natkaniec I.2
,
Khavryutchenko V.3
,
Nikitina E.
1
,
Barthel H.4
,
Weis J.4
Journal
Publisher
Elsevier Science Publishers B.V., Amsterdam
Language
English
Pages
244-246
Status
Published
Link
Volume
276-278
Year
2000
Organizations
- 1 Russ. Peoples' Friendship University, Gen. Phys. Dept., Ul. O., Moscow, Russian Federation
- 2 Frank Laboratory of Neutron Physics, Joint Institute for Nuclear Research, Dubna, Russian Federation
- 3 Institute of Surface Chemistry, Natl. Academy of Sciences of Ukraine, Kiev, Ukraine
- 4 Wacker-Chemie GmbH, Werk Burghausen, D-84480, Burghausen, Germany
Keywords
Absorption; Computer simulation; Molecular structure; Molecular vibrations; Neutron scattering; Silica; Silicones; Fumed silica; Inelastic neutron scattering (INS); Interfaces (materials)
Date of creation
19.10.2018
Date of change
19.10.2018
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Other records
Theoretical Foundations of Chemical Engineering.
Vol. 34.
2000.
P. 292-297