Rational design and fabrication of MoSx nanoclusters decorated Mn0.3Cd0.7S nanorods with promoted interfacial charge transfer toward robust photocatalytic H2 generation

In this work, we report a novel MoSx/Mn0.3Cd0.7S composite catalyst that has been designed and fabri-cated by in situ coupling MoSx nanoclusters with 1D Mn0.3Cd0.7S nanorods for photocatalytic H2 produc-tion. The catalyst features a 1D nanostructure with MoSx nanoclusters uniformly dispersed along the Mn0.3Cd0.7S nanorod. It was found that an intimate interface is built between MoSx nanoclusters and Mn0.3Cd0.7S nanorods thanks to the facile in situ photoreduction route, which contributes to a high -efficiency interfacial charge separation. The resulting MoSx/Mn0.3Cd0.7S photocatalyst shows a dramati-cally enhanced visible-light-driven photocatalytic H2 production activity compared with the control sam-ples, owing to more efficient spatial charge separation as well as enriched active sites. This work is expected to provide an optimized structure model for rational design and constructing novel, inexpen-sive, efficient and stable cocatalyst/metal sulfide photocatalyst systems for H2 production.(c) 2022 Elsevier Inc. All rights reserved.