Issue 15, 2022

Interstitially O-doped CdxZn1−xS solid solution derived from chalcogenide molecular clusters for photocatalytic hydrogen evolution

Abstract

Interstitial oxygen dopants (Oi) in sulfide nanocrystals are more conducive to charge carrier separation for improving the photocatalytic hydrogen evolution (PHE) performance than substituted oxygen dopants (OS). However, oxygen dopants exist dominantly in the form of OS, rather than Oi, in oxygen-doped sulfides prepared via traditional methods. Herein, an Oi-doped CdxZn1−xS solid solution was facilely synthesized through pyrolyzing a mixture of oxygen-containing zinc sulfide clusters and CdCl2 salts. At a controlled pyrolysis temperature, the oxygen components inside the cluster were successfully converted into Oi dopants associated with sulfur vacancies. The as-synthesized Oi-doped CdxZn1−xS solid solution exhibits good PHE performance due to its unique energy band structure caused by the two coexistent defects. The synthetic method of using the intrinsic components in molecular clusters to modulate the types of specific dopants in photocatalysts may provide a new synthetic strategy for creating doped photocatalysts with excellent PHE activities.

Graphical abstract: Interstitially O-doped CdxZn1−xS solid solution derived from chalcogenide molecular clusters for photocatalytic hydrogen evolution

Supplementary files

Article information

Article type
Research Article
Submitted
05 มี.ค. 2565
Accepted
25 พ.ค. 2565
First published
25 พ.ค. 2565

Inorg. Chem. Front., 2022,9, 3771-3778

Interstitially O-doped CdxZn1−xS solid solution derived from chalcogenide molecular clusters for photocatalytic hydrogen evolution

W. Yang, X. Wang, Z. Wang, P. Sun, J. Tang, J. Li, D. Li and T. Wu, Inorg. Chem. Front., 2022, 9, 3771 DOI: 10.1039/D2QI00497F

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