Recent advances in quaternary copper-based sulfides and their derivatives for solar hydrogen evolution

Quaternary copper-based sulfides (QCSs) exhibit significant potential for solar hydrogen evolution due to their diverse compositions and structures, suitable band structure, controllable synthesis, and non-toxic nature. Strengthening cognition for nanostructures enables the fabrication of high-effic...

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Bibliographic Details
Published in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2024-10, Vol.12 (39), p.2639-2642
Main Authors: Li, Yu, Liu, Zheming, Chen, Jie, Wang, Shuaibing, Lin, Ouyang, Yang, Chunhe, Yin, Zhe, Tang, Aiwei
Format: Article
Language:English
Subjects:
Cognition
Controllability
Copper
Correlation
Energy conversion
Evolution
Fabrication
Heterojunctions
Homojunctions
Hydrogen
Hydrogen evolution
Photocatalysis
Photocatalysts
Structure-function relationships
Sulfides
Synthesis
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Summary:Quaternary copper-based sulfides (QCSs) exhibit significant potential for solar hydrogen evolution due to their diverse compositions and structures, suitable band structure, controllable synthesis, and non-toxic nature. Strengthening cognition for nanostructures enables the fabrication of high-efficiency photocatalysts. Although a comprehensive understanding of photocatalytic processes of QCS-based photocatalysts has been recently accumulated, the correlation between structure and function remains incompletely elucidated. This overview begins with an introduction to the fundamental principles of solar hydrogen evolution. Subsequently, we provide a succinct description of the controllable synthesis of QCS-based photocatalysts. The structure-function correlation of single QCSs is systematically discussed by exploring how structure-related properties influence photocatalytic processes. Recent advancements based on single QCSs are described in detail. As a guide, we further discuss the structure-function correlation of QCS-based derivatives including semiconductor heterojunctions, cocatalyst loading, heteroatom doping, and polytypic homojunctions. Different mechanisms of activity enhancement are provided along with a summary of their research progress in solar hydrogen evolution. In conclusion, challenges and prospects for materials synthesis and energy conversion are proposed. We anticipate that this overview will offer valuable insights for future exploration of QCS-based photocatalysts, greatly advancing the progress in this emerging research field. This review presents the recent advances in quaternary copper-based sulfides and their derivatives for solar hydrogen evolution, with an emphasis on the structure-function correlation.
ISSN:2050-7488
2050-7496
DOI:10.1039/d4ta03912b