Abstracts: Vibrational spectroscopy of crystalline multilayer ice: Surface modes in the intermolecular-vibration region. Surface adsorption and trapping of Xe on hexagonal ice at 180K by molecular dynamics simulations - Chemicals, plastics and rubber industries

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Vibrational spectroscopy of crystalline multilayer ice: Surface modes in the intermolecular-vibration region

Article Abstract:

The electron scattering mechanism from the ice is investigated, and it is found that the surface modes are excited via dipole mechanism in contrast to the bulk modes, which show a characteristics resonance feature. The results shows the surface modes are mainly excited via dipole mechanism, whereas the bulk modes show resonance features characteristics of the short-range mechanism.

author: Yamada, T., Okuyama, H., Aruga, T., Nishijima, M.

Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2003

Properties, Electron scattering

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Surface adsorption and trapping of Xe on hexagonal ice at 180K by molecular dynamics simulations

Article Abstract:

The mechanism of adsorption and the initial stage of absorption of a Van der Waals particle into crystalline ice are investigated. It is shown that the potential of mean force (PMF) can be used to illustrate the degree of disruption of the crystalline structure of the ice.

author: Daoben Zhu, Mitlin, S., Lemak, A.S., Torrie, B.H., Leung, K.T.

Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2003

Industrial Gas Manufacturing, Industrial gases, Xenon, Analysis, Molecular dynamics, Structure, Chemical properties

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Subsurface hydrogen at Pd(100) induced by gas-phase atomic hydrogen

Article Abstract:

Research of the behaviour of the subsurface hydrogen species created by the H(g)-induced absorption process is presented. Evidence for subsurface occupation induced by gas-phase atomic hydrogen, with a saturation amount of 1.06 +/- 0.16 monolayer, is reported.

author: Okuyama, H., Aruga, T., Nakagawa T., Siga, W., Takagi N., Nishijima M.

Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 1999

Hydrogen, Deuterium, Hydrogen isotopes

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subjects list: Research, Ice, Chemistry, Physical and theoretical, Physical chemistry

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