AgI/g-CN S-scheme heterojunction with a unique electron transfer pathway was developed as a catalyst for H evolution. We discussed the behavior of chemisorption and photoexcited charge carriers in photocatalytic reduction on the S-scheme AgI/g-CN heterojunction. It was demonstrated that the path of charge transfer mediated by S-scheme AgI/g-CN heterojunction was favorable for the improvement of electron utilization in photocatalysis. The advantage of S-scheme heterojunction was that the holes in the valence band (VB) of g-CN could recombine with the electrons in the conduction band (CB) of AgI due to the built-in electric field. Electrons on the CB of g-CN and holes on the VB of AgI were preserved for further photocatalytic reaction. Therefore, a distinctive electron transfer pathway was introduced in the S-scheme heterojunction. In addition, the lifetime of charge carriers was prolonged, and the reduced ability of electrons was increased as compared to reference g-CN. It not only decreased the energy required for electron excitation, but also reduced the energy consumption for the charge transfer. This paper provided a new strategy to improve the utilization of photogenerated electrons and chemisorption of water for photocatalytic HO splitting.
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