Cu-doped Bi/Bi2WO6 catalysts for efficient N2 fixation by photocatalysis

IF 4.3 3区 工程技术 Q2 ENGINEERING, CHEMICAL Frontiers of Chemical Science and Engineering Pub Date : 2023-06-05 DOI:10.1007/s11705-023-2312-1
Xiaojing Li, Chunran Zhao, Junfeng Wang, Jiayu Zhang, Ying Wu, Yiming He
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引用次数: 8

Abstract

In this paper, Cu-doped Bi2WO6 was synthesized via a solvothermal method and applied it in photocatalytic N2 immobilization. Characterization results showed the presence of a small amount of metallic Bi in the photocatalyst, indicating that the synthesized photocatalyst is actually Bi/Cu-Bi2WO6 composite. The doped Cu had a valence state of +2 and most likely substituted the position of Bi3+. The introduced Cu did not affect the metallic Bi content, but mainly influenced the energy band structure of Bi2WO6. The band gap was slightly narrowed, the conduction band was elevated, and the work function was reduced. The reduced work function improved the transfer and separation of charge carriers, which mainly caused the increased photoactivity. The optimized NH3 generation rates of Bi/Cu-Bi2WO6 reached 624 and 243 (µmol·L−1·g−1·h−1 under simulated solar and visible light, and these values were approximately 2.8 and 5.9 times higher those of Bi/Bi2WO6, respectively. This research provides a method for improving the photocatalytic N2 fixation and may provide more information on the design and preparation of heteroatom-doped semiconductor photocatalysts for N2-to-NH3 conversion.

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Cu掺杂Bi/Bi2WO6催化剂用于光催化高效固氮
本文采用溶剂热法合成了Cu掺杂的Bi2WO6,并将其应用于光催化固定化N2。表征结果表明,光催化剂中存在少量金属Bi,表明合成的光催化剂实际上是Bi/Cu-Bi2WO6复合材料。掺杂的Cu具有+2的价态,并且很可能取代了Bi3+的位置。引入的Cu不影响金属Bi的含量,但主要影响Bi2WO6的能带结构。带隙略微变窄,导带升高,功函数降低。功函数的降低改善了载流子的转移和分离,这主要是导致光活性增加的原因。Bi/Cu-Bi2WO6的最佳NH3生成率分别达到624和243(µmol·L−1·g−1·h−1),这些值分别是Bi/Bi2WO6的2.8和5.9倍。本研究为改善光催化固定N2提供了一种方法,并可能为设计和制备用于N2到NH3转化的杂原子掺杂半导体光催化剂提供更多信息。
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来源期刊
CiteScore
7.60
自引率
6.70%
发文量
868
审稿时长
1 months
期刊介绍: Frontiers of Chemical Science and Engineering presents the latest developments in chemical science and engineering, emphasizing emerging and multidisciplinary fields and international trends in research and development. The journal promotes communication and exchange between scientists all over the world. The contents include original reviews, research papers and short communications. Coverage includes catalysis and reaction engineering, clean energy, functional material, nanotechnology and nanoscience, biomaterials and biotechnology, particle technology and multiphase processing, separation science and technology, sustainable technologies and green processing.
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