S-doped C3N5 derived from thiadiazole for efficient photocatalytic hydrogen evolution

Guan, Xinwei; Fawaz, Mohammed; Hu, Long; Wu, Tom; Chakraborty, Sudip; Yi, Jiabao; Vinu, Ajayan; Sarkar, Ranjini; Lin, Chun-Ho; Li, Zhixuan; Lei, Zhihao; Nithinraj, Panangattu Dharmarajan; Kumar, Prashant; Zhang, Xiangwei; Yang, Jae-Hun

Title: S-doped C3N5 derived from thiadiazole for efficient photocatalytic hydrogen evolution
Creator: Guan, Xinwei; Fawaz, Mohammed; Hu, Long; Wu, Tom; Chakraborty, Sudip; Yi, Jiabao; Vinu, Ajayan; Sarkar, Ranjini; Lin, Chun-Ho; Li, Zhixuan; Lei, Zhihao; Nithinraj, Panangattu Dharmarajan; Kumar, Prashant; Zhang, Xiangwei; Yang, Jae-Hun
Relation: ARC.LP200201079 http://purl.org/au-research/grants/arc/LP200201079
Relation: Journal of Materials Chemistry A Vol. 11, Issue 24, p. 12837-12845
Publisher Link: http://dx.doi.org/10.1039/d3ta00318c
Publisher: Royal Society of Chemistry
Resource Type: journal article
Date: 2023
Description: Graphitic carbon nitrides (g-C3N4) with unique physicochemical properties are promising candidates for photocatalysis applications. However, pristine g-C3N4 often suffers from narrow absorption ranges and high carrier recombination rates, which result in mediocre catalytic performance. In this work, we prepare novel sulfur-doped high nitrogen containing carbon nitrides, C3N5 (SCNs), with a combined thiadiazole, triazole, and triazine framework by facile self-assembly of 5-amino-1,3,4-thiadiazole-2-thiol (5-ATDT). Their structural, morphological, and optical properties, and photocatalytic activities are investigated in detail. From density functional theory calculations and spectroscopic characterization studies, we construct thermodynamically stable molecular structures of SCNs composed of one triazole and two triazine moieties with small ratios of thiadiazole on the edge, in which the sulfur atoms are ionically connected with carbon/nitrogen atoms and gradually detached on increasing the calcination temperatures. Remarkably, the resultant SCNs exhibit a significantly enhanced H2-generation rate of 486 μmol g−1 h−1, about 60% higher than the average value derived from typical g-C3N4 synthesised by conventional precursors thanks to the enlarged light absorption range and enhanced charge carrier transfer rate. Our work provides a unique approach for designing novel sulfur-doped carbon nitrides with unprecedented functionalities.
Subject: S-doped; graphitic carbon nitrides; photocatalytic activity; thiadiazoles; SDG 7; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1482229
Identifier: uon:50892
Identifier: ISSN:2050-7488
Language: eng
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