Probing the structures of bimetallic Sn/Rh(111) surfaces: Alkali-ion scattering and x-ray photoelectron diffraction studies
- Department of Chemistry, University of Southern California, Los Angeles, California 90089-0482 (United States)
We have investigated the bimetallic Sn/Rh(111) system formed by vapor deposition of Sn on a Rh(111) single-crystal surface by applying two powerful structural probes: alkali-ion scattering spectroscopy (ALISS) and x-ray photoelectron diffraction. For initial submonolayer exposures, the surface structure responsible for the observed ({radical}(3){times}{radical}(3))R30{degree}-Sn/Rh(111) low-energy electron diffraction pattern is explored and its alloy nature is established. The Na{sup +} ALISS results indicate that the formation of this surface alloy is produced by the replacement of top-layer Rh atoms by Sn atoms. The resultant alloy surface can be strictly two dimensional if the annealing temperature is high enough ({ge}1300K). This surface alloy is buckled with the Sn atoms displaced upward from the Rh surface plane by 0.29{plus_minus}0.05{Angstrom}. In addition, x-ray photoemission spectroscopy core-level measurements have been performed on this surface alloy at grazing exit angles and these are compared with results on the analogous Sn/Pt(111) surface alloy. Binding energy shifts of {minus}0.4 and {minus}0.6 eV for the Rh 3d and Sn 3d core levels, respectively, were observed for the Rh-Sn alloy compared to the pure elements. A shift of {minus}0.3eV was also seen for the valence-band centroid upon alloying. From temperature-programmed desorption studies it was determined that CO adsorption is decreased on the Sn/Rh surface alloy, but with only a small (4 kcal/mol) decrease in the adsorption energy. The growth mechanism of the Sn film in the Sn/Rh(111) bimetallic system was also probed. The vapor deposition of Sn on Rh(111) at 300 K does not form epitaxial clean Sn films or pure Sn clusters but rather forms a random alloy of increasing thickness. {copyright} {ital 1997} {ital The American Physical Society}
- OSTI ID:
- 554378
- Journal Information:
- Physical Review, B: Condensed Matter, Journal Name: Physical Review, B: Condensed Matter Journal Issue: 24 Vol. 56; ISSN 0163-1829; ISSN PRBMDO
- Country of Publication:
- United States
- Language:
- English
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