Abstract

Abstract Photocatalytic hydrogen production by means of water splitting has attracted significant attention to convert solar energy into chemical energy. In this present study, a facile one‐step cation exchange approach was used to prepare Cu x S decorated on CdS nanorods (Cu x S/CdS NRs, x =1–2) for enhanced photocatalytic hydrogen production in water under visible light irradiation ( λ >420 nm). Under optimal conditions, the highest H 2 production rate achieved was ≈111 μmol h −1 and the apparent quantum yield reached ≈7 %. Efficient transfer processes of photogenerated charge carriers from CdS to Cu x S, which can be attributed to the uniform distribution of Cu x S on the CdS surface, were confirmed by steady‐state photoluminescence (PL) spectra and time‐resolved photoluminescence spectra. All the results indicate that this low‐cost cation exchange reaction is a promising method to construct an efficient system for photocatalytic hydrogen evolution.