2003
DOI: 10.1021/jp030117k
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Electron-Stimulated Desorption of H+, H2+, OH+, and H+(H2O)n from Water-Covered Zirconia Surfaces

Abstract: Electron beam induced production and desorption of H + , H 2 + , OH + , and H + (H 2 O) n has been studied from water-covered zirconia surfaces. The proton yield is strongly dependent upon the form of water present with large yields mainly from multilayers or clusters. The high proton kinetic energy distributions and the linear yield vs dose are indicative of proton formation and desorption by 2-hole and 2-hole, 1-electron final states. These localized states are produced either directly or via Auger decay pat… Show more

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Cited by 20 publications
(22 citation statements)
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“…These are the only doublet electronic states of H 2 O that have H 2 (X 1 g ) as a dissociation product. We further note that the H 2 yield is linear with electron flux, consistent with unimolecular dissociation of states created during single impact events [21].…”
supporting
confidence: 68%
“…These are the only doublet electronic states of H 2 O that have H 2 (X 1 g ) as a dissociation product. We further note that the H 2 yield is linear with electron flux, consistent with unimolecular dissociation of states created during single impact events [21].…”
supporting
confidence: 68%
“…[37][38]53 Therefore, an increase in the flux of impinging electrons should be correlated with a linear enhance of the amount of desorbed ions. [37][38]53 Therefore, an increase in the flux of impinging electrons should be correlated with a linear enhance of the amount of desorbed ions.…”
Section: Resultsmentioning
confidence: 99%
“…[1][2][3][4][5][6][7] In model laboratory studies electrons may originate indirectly from photo-induced processes 8 or from a well defined electron gun source. [9][10][11][12] The motivation for such studies arises from the need to better understand the physics and chemistry at the outer space 13 as well as phenomena occurring at the stratosphere, 14 where solid particles are covered by layers of ice. 15 The interaction of electrons with molecules adsorbed on metal or oxide substrates is often described by the Menzel-Gomer-Redhead (MGR) 16,17 model.…”
Section: Introductionmentioning
confidence: 99%