Efficient photocatalytic degradation of ammonia nitrogen by Z-scheme NH2-MIL-101(Fe)/BiVO4 heterostructures

A promising Z-scheme NH2-MIL-101(Fe)/BiVO4 heterostructure was fabricated by in-situ growth of monoclinic BiVO4 onto the surface of NH2-MIL-101(Fe) nanoparticles and employed for ammonia nitrogen removal in water for the first time. Experiments demonstrated that NH2-MIL-101(Fe)/BiVO4 composites disp...

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Bibliographic Details
Published in:Journal of alloys and compounds 2023-02, Vol.933, p.167815, Article 167815
Main Authors: Shi, Huilong, Li, Chunhu, Wang, Liang, Wang, Wentai, Bian, Junjie, Meng, Xiangchao
Format: Article
Language:English
Subjects:
Ammonia nitrogen removal
BiVO4
In-situ growth
NH2-MIL-101(Fe)
Photocatalyst
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Summary:A promising Z-scheme NH2-MIL-101(Fe)/BiVO4 heterostructure was fabricated by in-situ growth of monoclinic BiVO4 onto the surface of NH2-MIL-101(Fe) nanoparticles and employed for ammonia nitrogen removal in water for the first time. Experiments demonstrated that NH2-MIL-101(Fe)/BiVO4 composites displayed boosted performance for ammonia nitrogen removal. And 10%-MBVO exhibited optimal removal rate of ammonia nitrogen as 95.7% and N2 selectivity as 92.3% in 90 min at pH of 9.0 with initial concentration as 30 mgN/L. Moreover, effects of initial solution pH, stirring speed and impurity ions (k+, Ca2+, SO42− and CO32−) were investigated. The end products and net contributions of stripping, adsorption, photolysis, photocatalysis in ammonia nitrogen removal were revealed. The functions of ·OH, ·O2− and h+ in photocatalytic degradation of ammonia were explored by scavenging experiments. The proposed mechanism indicated that the enhancement may be primarily owing to the improved light harvesting capacity and stronger redox ability of photogenerated carriers provided by Z-scheme heterostructures. [Display omitted] •Z-scheme NH2-MIL-101(Fe)/BiVO4 were fabricated for ammonia removal in water.•Effects of solution pH, stirring speed and impurity ions were investigated.•Functions of·OH,·O2− and h+ in ammonia removal were explored.•The possible mechanism for ammonia removal over 10%-MBVO was proposed.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2022.167815