Hydrogen evolution by water splitting using novel composite zeolite-based photocatalyst

Abstract

Novel zeolite-based material showing photocatalytic properties in the visible light have been synthesized by incorporating TiO 2, heteropolyacid (HPA) and transition metal, namely cobalt. This material shows high efficiency for water splitting under visible light irradiation. Hydrogen generation to the tune of 2171 μmol/h/g of TiO 2 has been achieved for the composite photocatalyst synthesized as compared to H 2 evolution rate to the tune of 131.6 μmol/h/g of TiO 2 for Degussa P25. This suggests that the TiO 2 which gets effectively dispersed and stabilized on the surface of zeolite works synergistically with cobalt and heteropolyacid to make the material active in visible light for evolution of hydrogen from water. TiO 2 is the photocatalyst, HPA functions as the dye sensitiser as well as redox system; zeolite functions as support matrix and as electron acceptor in synergy with cobalt. The probable mechanism for improved hydrogen evolution rate using such composite photocatalyst has been discussed.