0000000000205188
AUTHOR
C. G. Granqvist
X-ray absorption study of Ce?Ti oxide films
Abstract X-ray absorption measurements at the Ce L 3 , L 1 and Ti K-edges have been done to study local structure and electronic properties of CeO 2 –TiO 2 thin films produced by reactive d.c. magnetron sputtering. The local environment around titanium and cerium ions can be described as pyramid-like and cube-like polyhedra, respectively, and the films are amorphous (correlation radius about 10 A). The analysis of Ce L 3 -edge XANES data has shown that the position of the Ce 4f 1 5d and 4f 0 5d states progressively shift towards lower energies with decreasing cerium dioxide content in the thin films.
Electrochromic Devices Incorporating Cr Oxide And Ni Oxide Films:
Abstract Transparent films of Cr oxide and Ni oxide were made by reactive DC magnetron sputtering in Ar+O2+H2. They displayed anodic electrochromism with charge capacities similar to that of W oxide. Cr oxide was stable in acidic environments, while Ni oxide was stable in basic environments. Electrochromic devices were made with pristine Cr oxide or Ni oxide films operating in conjunction with W oxide and a proton conducting electrolyte. Of the two oxides, Cr oxide film allowed device operation at a lower voltage span, while the device with Ni oxide film yielded a higher transmittance in the bleached state, a larger absorptance modulation, and a more neutral color.
Changes in the local structure of nanocrystalline electrochromic films of hydrated nickel vanadium oxide upon ozone-induced coloration
Hydrated thin films of nickel vanadium oxide (Ni1−xVxOy), made by reactive DC magnetron sputtering, were studied by x-ray absorption spectroscopy at the Ni and V K-edges using synchrotron radiation. The XANES signals were analysed within the full-multiple-scattering formalism, whereas EXAFS data were modelled within the multi-shell multiple-scattering approach. We found that transparent films exhibit a nanocrystalline NiO-type structure with homogeneous distribution of V ions substituting Ni ions. Exposure of the films to ozone resulted in dark brown coloration associated with an appearance of Ni3+ ions and accompanied by a modification of the local electronic and atomic structures of the V…