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Photocatalytic solar fuel production and environmental remediation through experimental and DFT based research on CdSe-QDs-coupled P-doped-g-C3N4 composites

DOI:10.1016/j.apcatb.2020.118867 期刊:Applied Catalysis B: Environmental 出版年份:2020 更新时间:2025-09-23 15:21:01
摘要: Solar energy harvesting and conversion into useful chemical energy with the aid of semiconductor photocatalysts is a promising technique to solve both energy and environmental issues. This work reports a successful synthesis of CdSe quantum dots (QDs) modified phosphorus doped g-C3N4 (P-CN) for advanced photocatalytic applications. Phosphorus doping and structural coupling with CdSe QDs are shown to significantly extend visible-light response of g-C3N4 up to 700 nm. The optimized sample 4CdSe/P-CN demonstrates enhanced visible-light driven overall water splitting activities for H2 and O2 evolution i.e. 113 and 55.5 μmol.h?1.g?1, respectively, as well as very high photocatalytic CO2 to CH4 conversion efficiency (47 μmol.h?1.g?1). It also exhibit higher activity (78 %) for 2,4-dichlorophenol degradation as compared to pristine CN-sample. Combined photoluminescence, transient/single wavelength photocurrent, photoelectrochemical, and coumarin fluorescence spectroscopy demonstrate that 4CdSe/P-CN nanocomposite exhibit enhanced charge separation efficiency which is responsible for improved visible light catalytic activities. Our work thus provide a new strategy to design low-cost and sustainable photocatalysis with wide visible-light activity for practical overall water splitting and CO2 reduction applications.
作者: Fazal Raziq,Asif Hayat,Muhammad Humayun,Sunil Kumar Baburao Mane,M. Bilal Faheem,Asad Ali,Yang Zhao,Shaobo Han,Chao Cai,Wei Li,Dong-Chen Qi,Jiabao Yi,Xiaojiang Yu,Mark B.H. Breese,Fakhrul Hassan,Farman Ali,Abdurashid Mavlonov,K. Dhanabalan,Xia Xiang,Xiaotao Zu,Sean Li,Liang Qiao
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研究目的

To design low-cost and sustainable photocatalysis with wide visible-light activity for practical overall water splitting and CO2 reduction applications.

研究成果

The study successfully demonstrates the enhanced photocatalytic activity of CdSe/P-CN nanocomposites for solar fuel production and environmental remediation. The optimized 4CdSe/P-CN sample shows significant improvement in visible-light driven water splitting and CO2 reduction, attributed to extended visible-light response and improved charge separation efficiency.

研究不足

The study focuses on the synthesis and characterization of CdSe/P-CN nanocomposites for photocatalytic applications. Limitations may include the scalability of the synthesis process and the stability of the nanocomposites under long-term operational conditions.

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