Effect of the indium sulfide phase in CuInS2-TiO2 photocatalysts to boost hydrogen evolution by water splitting

Abstract

The purpose of this study is to develop a visible light responsive photocatalyst that can remove such environmental pollutants as polysulfide anions and simultaneously generate clean hydrogen energy. An environmentally friendly copper indium sulfide (CuInS₂, CIS) nano-colloid was synthesized in aqueous medium for the design of such a photocatalyst. Characterization of the hydrophilic CIS with different In/Cu ratios were studied by XRD, Raman, UV-Vis, photoluminescence spectroscopy. These results showed that the long-lived photoexcited electrons in the CIS with higher In/Cu ratio can be expected to achieve efficient interaction with the reactant molecules. On the photocatalytic activity of CIS, the effect of such various supports as TiO₂, and In/Cu ratio of CIS on the reaction promotion was examined. The CIS deposited TiO₂ (CIS-TiO₂) showed higher photocatalytic activity than bulk CIS, and the indium sulfide-richer CIS-TiO₂ showed better performance. The indium sulfide moiety participates in the compensation of the defect sites in the CIS as well as the interaction between In-rich CIS and TiO₂ can achieve effective charge carrier separation. This is the first report finding that the indium-richer CuInS₂ plays an important role in an improvement of the photocatalytic activity.