Metallic vanadium ultrathin films deposited on the TiO2 (110) surface are easily oxidised to VO2 when they react with O2 in the high vacuum pressure range. We have found that the oxidation can be stopped at VOx (x≈1) when annealing of the metal film is carried out in UHV, by exploiting the reaction with bulk-to-surface diffusing oxygen. By adopting carefully optimised experimental conditions (e.g. metal film thickness and annealing temperature), locally ordered VOx films with a thickness of up to 5 ML can be prepared. X-ray photoelectron spectroscopy and angle-scanned photoelectron diffraction, as an in situ structural characterisation tool, have proven to be extremely useful in order to find optimised conditions for the whole process.
Ultrathin VOx/TiO2(110) (x≈1) film preparation by controlled oxidation of metal deposits
SAMBI, MAURO;GRANOZZI, GAETANO
1999
Abstract
Metallic vanadium ultrathin films deposited on the TiO2 (110) surface are easily oxidised to VO2 when they react with O2 in the high vacuum pressure range. We have found that the oxidation can be stopped at VOx (x≈1) when annealing of the metal film is carried out in UHV, by exploiting the reaction with bulk-to-surface diffusing oxygen. By adopting carefully optimised experimental conditions (e.g. metal film thickness and annealing temperature), locally ordered VOx films with a thickness of up to 5 ML can be prepared. X-ray photoelectron spectroscopy and angle-scanned photoelectron diffraction, as an in situ structural characterisation tool, have proven to be extremely useful in order to find optimised conditions for the whole process.Pubblicazioni consigliate
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