Facile preparation of recyclable and flexible BiOBr@TiO2/PU-SF composite porous membrane for efficient photocatalytic degradation of mineral flotation wastewater
Тип публикации: Journal Article
Дата публикации: 2022-12-01
SCImago Q1
Tоп 10% SCImago
WOS Q1
БС1
SJR: 1.229
CiteScore: 9.6
Impact factor: 6.6
ISSN: 22147144
Biotechnology
Process Chemistry and Technology
Waste Management and Disposal
Safety, Risk, Reliability and Quality
Краткое описание
Various semiconductor nanopowders can photodegrade wastewater efficiently, but their practical application is grievously limited due to poor recycling performance, insufficient sunlight utilization and potential secondary pollution. Membrane materials have been widely used for water treatment, including oil-water separation, desalination and sewage purification. In this paper, a novel BiOBr@TiO 2 /PU-SF composite porous membrane was prepared via a facile blending-phase separation-impregnation-precipitation method, and this was the first time that the novel membrane material was used as a photocatalyst for mineral flotation wastewater disposal. The PU-SF composite membrane with irregular porous structure acted as a loading substrate, which not only provided abundant space to immobilize BiOBr and TiO 2 nanoparticles but also offered more photocatalytically active sites. The as-prepared BiOBr@TiO 2 /PU-SF composites were well characterized and exhibited higher photocatalytic activity as compared to BiOBr/PU-SF and TiO 2 /PU-SF. Combining the result of the characterization and free radical capture experiments with correlative theoretical calculations, we confirmed that the significant enhanced photocatalytic performance of BiOBr@TiO 2 /PU-SF membranes was attributed to the Z -scheme heterojunction formed between BiOBr and TiO 2 . In addition, the novel composite membrane material is flexible, it can be sheared, folded, and stretched arbitrarily. More importantly, the BiOBr@TiO 2 /PU-SF membrane can be readily taken out from the photocatalytic reaction system by tweezers, and the catalytic activity was essentially unchanged after being reused for 3 times. This novel recyclable flexible photocatalytic membrane will have promising prospect in field of actual mineral flotation wastewater treatment. • Polyurethane-Silk fibroin (PU-SF) membrane based BiOBr@TiO 2 photocatalysts are synthesized. • BiOBr@TiO 2 /PU-SF composite porous membrane displays enhanced photocatalytic activity for EX, BX, and IAX. • A Z -scheme heterostructure photocatalytic mechanism was proposed. • BiOBr@TiO 2 /PU-SF membrane exhibits high stability, easy recycling and good adjustability.
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Zou M. et al. Facile preparation of recyclable and flexible BiOBr@TiO2/PU-SF composite porous membrane for efficient photocatalytic degradation of mineral flotation wastewater // Journal of Water Process Engineering. 2022. Vol. 50. p. 103127.
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Zou M., Tan C., Yu H., Kuang D., Nie Z., Zhou H. Facile preparation of recyclable and flexible BiOBr@TiO2/PU-SF composite porous membrane for efficient photocatalytic degradation of mineral flotation wastewater // Journal of Water Process Engineering. 2022. Vol. 50. p. 103127.
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TY - JOUR
DO - 10.1016/j.jwpe.2022.103127
UR - https://doi.org/10.1016/j.jwpe.2022.103127
TI - Facile preparation of recyclable and flexible BiOBr@TiO2/PU-SF composite porous membrane for efficient photocatalytic degradation of mineral flotation wastewater
T2 - Journal of Water Process Engineering
AU - Zou, Min
AU - Tan, Chao
AU - Yu, Han
AU - Kuang, Danni
AU - Nie, Zexiao
AU - Zhou, Hu
PY - 2022
DA - 2022/12/01
PB - Elsevier
SP - 103127
VL - 50
SN - 2214-7144
ER -
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@article{2022_Zou,
author = {Min Zou and Chao Tan and Han Yu and Danni Kuang and Zexiao Nie and Hu Zhou},
title = {Facile preparation of recyclable and flexible BiOBr@TiO2/PU-SF composite porous membrane for efficient photocatalytic degradation of mineral flotation wastewater},
journal = {Journal of Water Process Engineering},
year = {2022},
volume = {50},
publisher = {Elsevier},
month = {dec},
url = {https://doi.org/10.1016/j.jwpe.2022.103127},
pages = {103127},
doi = {10.1016/j.jwpe.2022.103127}
}
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