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Oxygen-permeable membranes based on partially B-site substituted BaFe1−yMyO3−δ (M=Cu or Ni)
Authors:Tetsuya Kida  Atsunori Yamasaki  Noboru Yamazoe
Affiliation:a Department of Energy and Material Sciences, Faculty of Engineering Sciences, Kyushu University, Kasuga-Koen 6-1, Kasuga-shi, Fukuoka 816 8580, Japan
b Department of Molecular and Material Sciences, Interdisciplinary Graduate School of Engineering Science, Kyushu University, Kasuga-Koen 6-1, Kasuga-shi, Fukuoka 816 8580, Japan
c Sensor Materials Center, National Institute of Materials Science (NIMS), Namiki 1-1, Tsukuba, Ibaraki 305 0044, Japan
Abstract:We carried out the partial substitution of the B-site in BaFeO3−δ perovskite with divalent cations to develop novel oxygen-permeable materials. We demonstrated that the partial substitution of Cu or Ni by more than 10% resulted in the stabilization of the cubic perovskite structure even at room temperature in a highly oxygen-permeable phase, as revealed by the X-ray diffraction (XRD) analysis. The Cu substitution was more effective for the stabilization, because the introduction of Cu in the lattice more effectively made the Goldschmidt tolerance factor (t) close to 1.0. Ni- and Cu-substituted BaFeO3−δ membranes showed higher oxygen permeabilities than their parent BaFeO3−δ membranes particularly at lower temperatures around 600-700 °C owing to the stabilization of the cubic phase. Among the fabricated membranes, a BaFe0.85Cu0.15O3−δ membrane (1.0 mm thickness) showed the highest oxygen permeation flux (1.8 cm3 min−1 cm−2 at 930 °C) under an air/He gradient. The results indicated that Cu-substituted BaFeO3-δ is promising as a material for Co-free membranes with high oxygen permeabilities.
Keywords:Perovskite  Oxygen permeation  Cubic structure  BaFeO3&minus  δ  Partial substitution
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