0000000000515740
AUTHOR
C. Guery
Influence of hydrogen intercalation on the local structure around Re ions in perovskite‐type ReO 3
octahedra with the Re-O-Re angle equal to 169° and the Re-O distance of about 1.90 A [9]. More accurate information on the local atomic and electronic structure of the bronzes can be ob-tained using XAS, which is a structural method complimentary to diffraction. To our knowledge, no such works have been performed until now. In this work, we present the first results of the in-situ XAS study of hydrogen intercalation into ReO
<title>In-situ x-ray absorption fine structure and x-ray diffraction studies of hydrogen intercalation in tungsten oxides</title>
We present in-situ x-ray absorption fine structure (XAFS) (at the W L 3 -edge) and x-ray diffraction (XRD) studies of hydrogen intercalation into stable monoclinic (m-WO 3 ) and metastable hexagonal (h-WO 3 ) and cubic (c-WO 3 ) phases of tungsten oxide. The analysis of XAFS and XRD data allowed us to reconstruct the local environment around tungsten ions in the first coordination shell. The obtained results are compared with the existing structural models.