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[1Ha02] Effect of crystal phases and defect formation on photocatalysis of reduced Pt/ZrO2−x
Zirconium oxide (ZrO2) has attracted attention as a catalyst material, which exhibits activity in various reactions because of its excellent chemical properties. On the other hand, it has a large band gap of about 5 eV, making it difficult to utilize sunlight as a photocatalyst. Reduced ZrO2−x, in which oxygen vacancies (VO) or Zr3+ are formed, is one of the promising materials which exhibit photocatalytic activity by defect formation. Monoclinic (m-) and Tetragonal (t-) ZrO2 can exist stably under mild conditions, which makes them suitable for catalytic reaction. In this study, we investigated the effect of crystal phases and defect formation on the photocatalytic activity. ZrO2 was synthesized by solvothermal method, and Pt/ZrO2−x were then obtained via reduction treatment under H2. In photocatalytic H2 production, Pt/m-ZrO2−x exhibited a higher activity than Pt/t-ZrO2−x. In addition, for both crystal phases, the Pt/ZrO2−x reduced at 600 °C for 2 hours exhibited the highest activity.
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