AIP Advances (Oct 2015)

Topotactic synthesis of strontium cobalt oxyhydride thin film with perovskite structure

  • Tsukasa Katayama,
  • Akira Chikamatsu,
  • Hideyuki Kamisaka,
  • Yuichi Yokoyama,
  • Yasuyuki Hirata,
  • Hiroki Wadati,
  • Tomoteru Fukumura,
  • Tetsuya Hasegawa

DOI
https://doi.org/10.1063/1.4935190
Journal volume & issue
Vol. 5, no. 10
pp. 107147 – 107147-7

Abstract

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The substitution of hydride anions (H−) into transition metal oxides has recently become possible through topotactic reactions or high-pressure synthesis methods. However, the fabrication of oxyhydrides is still difficult because of their inherently less-stable frameworks. In this study, we successfully fabricated perovskite SrCoOxHy thin films via the topotactic hydride doping of brownmillerite SrCoO2.5 epitaxial thin films with CaH2. The perovskite-type cation framework was maintained during the topotactic treatment owing to epitaxial stabilization. Structural and chemical analyses accompanied by X-ray absorption spectroscopy measurements revealed that the doped hydride ions form a two-dimensional network of Co-H−-Co bonds, in contrast to other reported perovskite oxyhydrides, SrMO3−xHx (M = Cr, Ti, V). The SrCoOxHy thin film exhibited insulating behavior and had a direct band gap of 2.1 eV. Thus, topotactic hydride doping of transition-metal-oxide thin films on suitable substrates is a promising method for the synthesis of new transition metal oxyhydrides.