Issue 34, 2023

Synthesis of lamellar O-doped ZnIn2S4 on layered g-C3N4 for boosted charge transfer and photocatalytic performances

Abstract

Element doping is an effective approach to modify the electronic structure of semiconductors and improve the photocatalytic activity. Herein, we designed a process for the oxygen doping of lamellar ZnIn2S4 (O-doped ZIS) nanosheets that were coated on layered g-C3N4 (CN) to form a g-C3N4/O-doped ZnIn2S4 (CN/O-doped ZIS) heterojunction to improve the charge separation efficiency, thereby boosting the photocatalytic performance of CN/O-doped ZIS. The optimized 20% CN/O-doped ZIS showed high photocatalytic performance (RhB, 97% in 20 min) under visible light, which is 19.6 and 2.5 times higher than that of CN and O-doped ZIS photocatalysts, respectively. In the investigations on the band structure, trapping experiments, and ESR tests, the photocatalytic mechanism of RhB degradation by the CN/O-doped ZIS composite was proposed. The photocatalytic performance was effectively promoted via oxygen doping and coupling with CN, which opens new insight into a highly efficient photocatalytic system.

Graphical abstract: Synthesis of lamellar O-doped ZnIn2S4 on layered g-C3N4 for boosted charge transfer and photocatalytic performances

Article information

Article type
Paper
Submitted
01 May 2023
Accepted
19 Jul 2023
First published
16 Aug 2023

New J. Chem., 2023,47, 16235-16244

Synthesis of lamellar O-doped ZnIn2S4 on layered g-C3N4 for boosted charge transfer and photocatalytic performances

X. Yan, M. Ma, Y. Mao, H. Kang, Q. Yan, J. Zhou, Z. Song, L. Pan, Y. Zhang, Y. Li, L. Cui, H. Zhu and D. Pang, New J. Chem., 2023, 47, 16235 DOI: 10.1039/D3NJ02000B

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