UV-laser-induced photodesorption of NO from NiO

Irradiation of a NO covered NiO surface by UV photons ( hv = 5.0and 6.4 eV, respectively) yields desorption with a quantum yield of the order 10 −2. Fully state-resolved determination of the energy distributions of the desorbing particles were performed by means of laser-induced fluorescence and dem...

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Published inSurface science Vol. 218; no. 2; pp. 467 - 493
Main Authors Ferm, P.M., Budde, F., Hamza, A.V., Jakubith, S., Ertl, G., Weide, D., Andresen, P., Freund, H.J.
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.08.1989
Amsterdam Elsevier Science
New York, NY
Subjects
Chemistry
Exact sciences and technology
General and physical chemistry
Solid-gas interface
Surface physical chemistry
Inorganic adsorbate
Laser beam
Gas solid desorption
Ultraviolet laser
Transition metal Compounds
Photodesorption
Gas solid interface
Nitrogen monoxide
Nickel II Oxides
Inorganic adsorbent
Metal Oxides
Experimental study
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Summary:Irradiation of a NO covered NiO surface by UV photons ( hv = 5.0and 6.4 eV, respectively) yields desorption with a quantum yield of the order 10 −2. Fully state-resolved determination of the energy distributions of the desorbing particles were performed by means of laser-induced fluorescence and demonstrated the non-thermal origin of at least part of them. Bimodal velocity distributions, a pronounced spin-orbit selectivity for molecules with low rotational levels, and an increase of the mean translational energy with increasing rotational energy are the most remarkable effects observed. The results are qualitatively discussed on the basis of current concepts for desorption via electronic excitation and for scattering of open-shell molecules at surfaces.
ISSN:0039-6028
1879-2758
DOI:10.1016/0039-6028(89)90163-5