Abstract
Depositing metal on the surface of semiconductor has been deemed to be an valid tactics to heighten the reducing activity of photocatalyst. Herein, the Bi/BiOBr catalyst was prepared via NaBH4-assisted reduction reaction. The photocatalytic capacity of CO2 conversion for Bi/BiOBr was appraised. The optimal Bi/BiOBr exhibits that the production rates of CO and CH4 are 251.2 and 25.6 μmol g-1h−1 individually, being 12.3 and 8.9 times as high as original BiOBr. The excellent activity for Bi/BiOBr could be put down to the synergy of surface plasmon resonance (SPR) effect of metallic Bi and OVs in the surface of BiOBr. More importantly, the OVs on surface of BiOBr could be deemed as reactive locations for the adsorption of CO2 and H2O molecules. This work reveals the synergistic effect of in-situ formed OVs and metal nanoparticles of Bi on enhancing the photocatalytic activity.
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