论文信息 - Visible Light Response of Wide Band Gap Semiconductor Photocatalysts by Doping of Transition Metal Ions. Aiming at Water Splitting.

Visible Light Response of Wide Band Gap Semiconductor Photocatalysts by Doping of Transition Metal Ions. Aiming at Water Splitting.

New visible-light-driven photocatalysts have been developed by doping of transition metal ions into photocatalyst materials, TiO2, SrTiO3, and ZnS, which have wide band gaps. TiO2 co-doped with chromium and antimony ions and Pt-loaded SrTiO3 co-doped with chromium and antimony or tantalum ions evolved O2 and H2 from water containing sacrificial reagents, respectively. In these photocatalysts, the visible-light-responses were due to the electron donor levels in the band gaps formed by doped transition metal ions. Moreover, maintaining of the charge balance in the titanate photocatalysts by co-doping of Cr3+ with high-valent ions (Sb5+ and Ta5+) played an important role for suppression of recombination between photogenerated electrons and holes, resulting in showing high photocatalytic activities. On the other hand, transition metal ion-doped ZnS photocatalysts efficiently evolved H2 from the water containing sacrificial reagents even without Pt co-catalysts.

A. Kudo | H. Kato

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