Title of article
The structure of epitaxial V2O3 films and their surfaces: A medium energy ion scattering study
Author/Authors
Window، نويسنده , , A.J. and Hentz، نويسنده , , A. and Sheppard، نويسنده , , D.C. and Parkinson، نويسنده , , G.S. and Woodruff، نويسنده , , D.P. and Unterberger، نويسنده , , W. and Noakes، نويسنده , , T.C.Q and Bailey، نويسنده , , P. and Ganduglia-Pirovano، نويسنده , , M.V. and Sauer، نويسنده , , J.، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 2012
Pages
12
From page
1716
To page
1727
Abstract
Medium energy ion scattering, using 100 keV H+ incident ions, has been used to investigate the growth of epitaxial films, up to thicknesses of ~ 200 Å, of V2O3 on both Pd(111) and Au(111). Scattered-ion energy spectra provide a measure of the average film thickness and the variations in this thickness, and show that, with suitable annealing, the crystalline quality is good. Plots of the scattering yield as a function of scattering angle, so-called blocking curves, have been measured for two different incidence directions and have been used to determine the surface structure. Specifically, scattering simulations for a range of different model structures show poor agreement with experiment for half-metal (….V′O3V) and vanadyl (….V′O3V=O) terminations, with and without surface interlayer relaxations. However, good agreement with experiment is found for the modified oxygen-termination structure, first proposed by Kresse et al., in which a subsurface V half-metal layer is moved up into the outermost V buckled metal layer to produce a VO2 overlayer on the underlying V2O3, with an associated layer structure of ….O3VV′′V ′O3. This result is consistent with the predictions of thermodynamic equilibrium at the surface under the surface preparation conditions, but is at variance with the conclusions of earlier studies of this system that have favoured the vanadyl termination. The results of these previous studies are re-evaluated in the light of the new result.
Keywords
epitaxy , Vanadium sesquioxide , Medium energy ion scattering (MEIS) , surface structure
Journal title
Surface Science
Serial Year
2012
Journal title
Surface Science
Record number
1692452
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