Tuning electronic structure for enhanced photocatalytic performance: theoretical and experimental investigation of CuMM'O (M, M' = B, Al, Ga, In) solid solutions.

Dalton Trans

Yunnan Key Laboratory for Micro/Nano Materials & Technology, School of Materials and Energy, Yunnan University, 650091 Kunming, P. R. China.

Published: October 2023

This study introduces robust screening methodology for the efficient design of delafossite CuMM'O solid-solution photocatalysts using band-structure engineering. The investigation not only reveals the formation rules for various CuMM'O solid solutions but also highlights the dependence on both lattice compatibility and thermodynamic stability. Moreover, the study uncovers the nonlinear relationship between composition and band gaps in these solid solutions, with the bowing coefficient determined by the substitution constituents. By optimizing the constituent elements of the conduction band edge and adjusting solubility, the band structure of CuMM'O samples can be fine-tuned to the visible light region. Among the examined photocatalysts, CuAlGaO exhibits the highest H evolution rate by striking a balance between visible-light absorption and sufficient reduction potential, showing improvements of 28.8 and 6.9 times those of CuAlO and CuGaO, respectively. Additionally, CuGaInO demonstrates enhanced electron migration and surpasses CuGaO in H evolution due to a reduction in the effective mass of photogenerated electrons. These findings emphasize the pivotal role of theoretical predictions in synthesizing CuMM'O solid solutions and underscore the importance of rational substitution constituents in optimizing light absorption, reduction potentials, and effective mass for efficient hydrogen production.

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Source
http://dx.doi.org/10.1039/d3dt02670aDOI Listing

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