Abstract

Aiming at the enhancement of photocatalytic activity for hydrogen evolution over ZnIn 2S 4, different transition metals (Cr, Mn, Fe, Co) are doped into the lattices of ZnIn 2S 4 to narrow the band gap. The doped ZnIn 2S 4 is characterized by XRD, Raman, UV–vis spectra, photoluminescence spectra, SEM and XPS techniques. The photocatalytic evaluation shows that Mn-doped ZnIn 2S 4 performs photocatalytic activity 20% higher than undoped ZnIn 2S 4, while Cr-, Fe-, and Co-doped ZnIn 2S 4 perform poorer activities in an order of Cr > Fe > Co. Based on the combined characterization results, the band structures of doped ZnIn 2S 4 are schematically depicted, which illustrates the different effects of transition-metal doping on the photocatalytic activity for hydrogen evolution. For Mn-doped ZnIn 2S 4, the enhancement of photocatalytic activity could be due to narrowed band gap induced by Mn doping. However, for Cr-, Fe-, and Co-doped ZnIn 2S 4, the suppressed photocatalytic activities should be attributed to the dopant-related impurity energy levels localizing the charge carriers or acting as non-radiative recombination centers for photoexcited electrons and holes. Hence, this study indicates that it is of great importance to make the in-depth investigation on the effects of band structures on the photocatalytic activity, especially for the doped semiconducting photocatalysts.

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