By means of scanning tunneling microscopy and density functional theory calculations, we studied the water formation reaction on the Rh(110) surface when exposing the (2 × 1)p2mg-O structure to molecular hydrogen, characterizing each of the structures that form on the surface during the reaction. First the reaction propagates on the surface as a wave front, removing half of the initial oxygen atoms. The remaining 0.5 monolayers of O atoms rearrange in pairs, forming a c(2 × 4) structure. Second, as the reaction proceeds, areas of an intermediate structure with c(2 × 2) symmetry appear and grow at the expense of the c(2 × 4) phase, involving all the oxygen atoms present on the surface. Afterward, the c(2 × 2) islands shrink, indicating that complete hydrogenation occurs at their edges, leaving behind a clean rhodium substrate. Two possible models for the c(2 × 2) structure, where not only the arrangement but also the chemical identity is different, are given.
Water Production Reaction on Rh(110) / Africh, Cristina; Lin, H.; Corso, M.; Esch, F.; Rosei, Renzo; Hofer, W. A.; Comelli, Giovanni. - In: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY. - ISSN 0002-7863. - STAMPA. - 127:(2005), pp. 11454-11459. [10.1021/ja0524301]
Water Production Reaction on Rh(110).
AFRICH, CRISTINA;ROSEI, RENZO;COMELLI, GIOVANNI
2005-01-01
Abstract
By means of scanning tunneling microscopy and density functional theory calculations, we studied the water formation reaction on the Rh(110) surface when exposing the (2 × 1)p2mg-O structure to molecular hydrogen, characterizing each of the structures that form on the surface during the reaction. First the reaction propagates on the surface as a wave front, removing half of the initial oxygen atoms. The remaining 0.5 monolayers of O atoms rearrange in pairs, forming a c(2 × 4) structure. Second, as the reaction proceeds, areas of an intermediate structure with c(2 × 2) symmetry appear and grow at the expense of the c(2 × 4) phase, involving all the oxygen atoms present on the surface. Afterward, the c(2 × 2) islands shrink, indicating that complete hydrogenation occurs at their edges, leaving behind a clean rhodium substrate. Two possible models for the c(2 × 2) structure, where not only the arrangement but also the chemical identity is different, are given.Pubblicazioni consigliate
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