Construction of Ni2P modified N-doped TiO2 flower-like microspheres with rich 0D/2D heterojunctions for enhanced hydrogen evolution reaction

Ni2P nanocrystals modified N-doped TiO2 flower-like microspheres (Ni2P/N-TFMs) with rich 0D/2D heterojunctions were successfully synthesized via a facile hydrothermal-calcination route. The results indicate that N-TFMs are assembled by interlaced nanosheets with the thickness of only 3–8 nm, which p...

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Bibliographic Details
Published in:Materials today chemistry 2024-04, Vol.37, p.102025, Article 102025
Main Authors: Cui, Liqin, Chen, Feitai, Li, Youji, Hu, Huan, Li, Jing, Gao, Juanfeng, Lin, Xiao, Chen, Zhe
Format: Article
Language:English
Subjects:
Flower-like microspheres
Heterojunctions
N-doped TiO2
Ni2P
Photocatalytic hydrogen evolution
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Summary:Ni2P nanocrystals modified N-doped TiO2 flower-like microspheres (Ni2P/N-TFMs) with rich 0D/2D heterojunctions were successfully synthesized via a facile hydrothermal-calcination route. The results indicate that N-TFMs are assembled by interlaced nanosheets with the thickness of only 3–8 nm, which provide abundant anchoring sites for the loading of Ni2P. Notably, the doping of N dopant effectively broadens the spectral response range of TFMs due to the formation of N 2p impurity energy level, and the formed 0D/2D heterojunctions between Ni2P nanocrystals and nanosheet units greatly facilitate the separation of photogenerated carriers and improve the photocatalytic reaction kinetic. Owing to the advantages in energy band structure and surface morphology, the synthesized 10Ni2P/N-TFMs composite exhibits a remarkably enhanced photocatalytic hydrogen evolution rate (0.368 mmol h−1 g−1) compared with commercial P25 TiO2 and N-TFMs under visible light irradiation, implying a wide application prospect of this kind of nanostructure in the field of green hydrogen production. [Display omitted] •Ni2P nanocrystals modified N-doped TiO2 flower-like microspheres were synthesized.•Ultrathin nanosheet units provide abundant anchoring sites for the loading of Ni2P.•N-doping greatly broadens the spectral response of TFMs to visible light region.•0D/2D heterojunctions facilitate separation of carriers and enhance the kinetics.•The hydrogen production rate of 10Ni2P/N-TFMs is as high as 0.368 mmol h−1 g−1.
ISSN:2468-5194
2468-5194
DOI:10.1016/j.mtchem.2024.102025