Chemical shift photoelectron diffraction from molecular adsorbates

30 November 1992

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 69 (22) , 3196-3199
https://doi.org/10.1103/physrevlett.69.3196

Abstract

By using the chemical shift in core-level photoemission from adsorbed species, we apply the technique of energy scan photoelectron diffraction to molecules containing nonequivalent atoms of the same element. As an example, we demonstrate the complete structural characterization of the surface acetate species on Cu{110} incuding independent determination of the sites of the two inequivalent carbon atoms.

Keywords

This publication has 14 references indexed in Scilit:

Structural determination of a molecular adsorbate by photoelectron diffraction: Ammonia on Ni{111}
Physical Review B, 1992
Calculation of Auger electron diffraction at a Ni(111) surface
Journal of Physics: Condensed Matter, 1990
Adsorption and reaction of CO2 on Ni{110}: X-ray photoemission, near-edge X-ray absorption fine-structure and diffuse leed studies
Surface Science, 1988
The structure of the formate species on copper surfaces: new photoelectron diffraction results and sexafs data reassessed
Surface Science, 1988
Direct Evidence of a Stretched C-C Distance for $C_{2}$ $H_{2}$ and $C_{2}$ $H_{4}$ on Cu(100) at 60 K
Physical Review Letters, 1987
An X-ray absorption and photoelectron diffraction study of the Cu{100} c(2 × 2) CO structure
Surface Science, 1986
Diffuse LEED and Surface Crystallography
Physical Review Letters, 1985
Structural Determination of Molecular Overlayer Systems with Normal Photoelectron Diffraction: $c (2 \times 2)$ CO-Ni(001) and $(\sqrt{3} \times \sqrt{3}) R 30 °$ CO-Ni(111)
Physical Review Letters, 1981
The structure of acetate species on copper (100)
Chemical Physics Letters, 1979
Acidities and basicities of carboxylic acids. Correlations between core-ionization energies, proton affinities, and gas-phase acidities
Journal of the American Chemical Society, 1978