Abstract
The passivation of sol–gel TiO 2 by ultra-thin layers of Al-oxide has been investigated using transient and spectral photovoltage (PV) techniques. The ultra-thin layers of Al-oxide were prepared by the ion-layer gas reaction (ILGAR) technique and modified by thermal treatments in air, vacuum or Ar/H 2S atmosphere. The samples where characterized by elastic recoil detection analysis (ERDA), X-ray photoelectron spectroscopy (XPS), and contact potential difference (CPD) technique. Without an Al-oxide surface layer, electronic states in the forbidden gap of TiO 2 are formed during thermal treatments in vacuum and Ar/H 2S. The trap density is strongly reduced at the TiO 2/Al-oxide interface. The formation of electronic defects is prevented by a closed ultra-thin layer of Al-oxide.
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