Ultrathin Bi 2 Se 3 /CdS composite for efficient photocatalytic hydrogen evolution via high interfacial charge separation and photothermal effect

Introducing the photothermal effect to promote the photocatalytic H 2 rate is a good strategy and is gradually gaining attention. In this work, a series of ultrathin Bi 2 Se 3 /CdS nanocomposites were prepared by hydrothermal method and in situ precipitation method. Notably, CdS nanoparticles are mo...

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Bibliographic Details
Published in:New journal of chemistry 2022-11, Vol.46 (44), p.21409-21417
Main Authors: Li, Ning, Fan, Haikuan, Su, Junhui, Gao, Yangqin, Ge, Lei
Format: Article
Language:English
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Summary:Introducing the photothermal effect to promote the photocatalytic H 2 rate is a good strategy and is gradually gaining attention. In this work, a series of ultrathin Bi 2 Se 3 /CdS nanocomposites were prepared by hydrothermal method and in situ precipitation method. Notably, CdS nanoparticles are monodispersed on the surface and aggregated at the edge of ultrathin Bi 2 Se 3 nanosheets, as shown by the TEM images, implying the formation of a tight interface and rich active sites with a large area. As expected, the composite displays an excellent photocatalytic H 2 rate under visible light irradiation, which is about 3.2 times higher than that of pristine CdS. The DRS analysis shows that Bi 2 Se 3 endowed the Bi 2 Se 3 /CdS composite with a stronger absorption ability and a wider visible absorption range. The PL, SPV, and electrochemical tests all demonstrate that the transfer and separation of electron–holes are greatly enhanced. Furthermore, the composite exhibits good solar-to-heat conversion efficiency under full-spectrum light illumination, which is beneficial to the charge activation and transfer rate. Based on the obtained band structure, the superior photocatalytic ability of the Bi 2 Se 3 /CdS composite is ascribed to the synergetic effect of the heterojunction and the strong solar-to-heat conversion. The work provides a strategy for employing photothermal conversion to improve solar energy conversion.
ISSN:1144-0546
1369-9261
DOI:10.1039/D2NJ04709H