Fabrication and comparison of highly efficient Cu incorporated TiO 2 photocatalyst for hydrogen generation from water

Abstract

Efficient Cu incorporated TiO 2 (Cu–TiO 2) photocatalysts for hydrogen generation were fabricated by four methods: in situ sol–gel, wet impregnation, chemical reduction of Cu salt, and in situ photo-deposition. All prepared samples are characterized by good dispersion of Cu components, and excellent light absorption ability. Depending on the preparation process, hydrogen generation rates of the as-prepared Cu–TiO 2 were recorded in the range of 9–20 mmol h −1 g catalyst −1, which were even more superior to some noble metal (Pt/Au) loaded TiO 2. The various fabrication methods led to different chemical states of Cu, as well as different distribution ratio of Cu between surface and bulk phases of the photocatalyst. Both factors have been proven to influence photocatalytic hydrogen generation. In addition, the Cu content in the photocatalyst played a significant role in hydrogen generation. Among the four photocatalysts, the sample that was synthesized by in situ sol–gel method exhibited the highest stability. High efficiency, low cost, good stability are some of the merits that underline the promising potential of Cu–TiO 2 in photocatalytic hydrogen generation.