The adsorption of atomic oxygen and its inclusion into subsurface sites on Ag(2 1 0) and Ag(4 1 0) surfaces have been investigated using density functional theory. We find that-in the absence of adatoms on the first metal layer-subsurface adsorption results in strong lattice distortion which makes it energetically unfavoured. However subsurface sites are significantly stabilised when a sufficient amount of O adatoms is present on the surface. At high enough O coverage on the Ag(2 1 0) surface the mixed on-surface + subsurface O adsorption is energetically favoured with respect to the on-surface only adsorption. Instead, on the Ag(4 1 0) surface, at the coverage we have considered (3/8 ML), the existence of stable terrace sites makes the subsurface O incorporation less favourable. These findings are compatible with the results of recent HREEL experiments which have actually motivated this work.
On-surface and subsurface adsorption of oxygen on stepped Ag(210) and Ag(410) surfaces / Kokalj, A.; Bonini, N.; Dal Corso, A.; de Gironcoli, S.; Baroni, S.. - In: SURFACE SCIENCE. - ISSN 0039-6028. - 566-568:part 2(2004), pp. 1107-1111. [10.1016/j.susc.2004.06.066]
On-surface and subsurface adsorption of oxygen on stepped Ag(210) and Ag(410) surfaces
Kokalj, A.;Bonini, N.;Dal Corso, A.;de Gironcoli, S.;Baroni, S.
2004-01-01
Abstract
The adsorption of atomic oxygen and its inclusion into subsurface sites on Ag(2 1 0) and Ag(4 1 0) surfaces have been investigated using density functional theory. We find that-in the absence of adatoms on the first metal layer-subsurface adsorption results in strong lattice distortion which makes it energetically unfavoured. However subsurface sites are significantly stabilised when a sufficient amount of O adatoms is present on the surface. At high enough O coverage on the Ag(2 1 0) surface the mixed on-surface + subsurface O adsorption is energetically favoured with respect to the on-surface only adsorption. Instead, on the Ag(4 1 0) surface, at the coverage we have considered (3/8 ML), the existence of stable terrace sites makes the subsurface O incorporation less favourable. These findings are compatible with the results of recent HREEL experiments which have actually motivated this work.| File | Dimensione | Formato | |
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