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Synergistically-mediated highly-efficient visible-light-driven hydrogen evolution activity using Ohmic/Schottky-type dual-junctions and sulfur vacancy

JOURNAL OF COLLOID AND INTERFACE SCIENCE [2025]
Wenxue Zhao, Aihua Yan, Zigao Su, Fei Huang, Jixu Zhang, Ye Gao, Huaqi Yuan
ABSTRACT

Enabling highly-efficient multiplex-optimization photocatalysts is critical to overcome the bottlenecks of hydrogen evolution reaction efficiency and photostability. Herein, novel CoS/S v -ZnIn 2 S 4 /MoS 2 composites are successfully synthesized through an in situ technique. Taking advantage of the synergistic effect of sulfur vacancy, Schottky-type MoS 2 /S v -ZnIn 2 S 4 junction and Ohmic-type CoS/S v -ZnIn 2 S 4 junction, the light absorption, electron/hole separation efficiency, charge transfer rate and hydrogen reduction reaction dynamic can be significantly enhanced. As a result, an impressive photocatalytic hydrogen evolution rate of 18.43 mmol g −1  h −1 is achieved under the visible-light irradiation. Furthermore, apparent quantum efficiencies of 72.14 % and 9.91 % are also achieved under 350 and 420 nm monochromatic light irradiation. This work presents an in situ perspective to design multiplex-optimization photocatalytic system for highly-efficient hydrogen production.

MATERIALS

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