Boosting H Production over C -Mediated NH -MIL-125(Ti)/Zn Cd S S-Scheme Heterojunction via Enhanced Interfacial Carrier Separation.

Improving greatly the separation efficiency of interfacial charge carrier is a major challenge in photocatalysis. Herein, a new class of C -mediated NH -MIL-125(Ti)/Zn Cd S S-scheme heterojunction with enhanced interfacial charge carrier separation is designed and synthesized. The constructed S-scheme heterojunction thermodynamically favors photocatalytic H evolution because of the large driving force resulting from its strong redox abilities. As a consequence, the optimum proportion of C -mediated NH -MIL-125(Ti)/Zn Cd S S-scheme heterojunction displays comparable H evolution activity with a rate of 7825.20 µmol h g under visible light irradiation, which is about 93.05 times, 6.38 times and 2.65 times higher than that of 2% C /NH -MIL-125(Ti), Zn Cd S and 45% NH -MIL-125(Ti)/Zn Cd S, and outperforms the majority of the previously reported MOFs-based photocatalysts. Spectroscopic characterizations and theory calculations indicate that the S-scheme heterojunction can powerfully promote the separation of photogenerated carriers. This work offers a new insight for future design and development of highly active MOFs-based photocatalysts.