Solvothermal synthesis of Ag hybrid BiPO4 heterostructures with enhanced photodegradation activity and stability

UV light-induced photocatalytic activity using Ag hybrid BiPO4 heterostructures. [Display omitted] •The Ag/BiPO4 showed superior photocatalytic activity for degradation of dyestuff.•The dyestuff degradation in complex matrix by the Ag/BiPO4 was evaluated.•The Ag/BiPO4 provided high stability under U...

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Bibliographic Details
Published in:Journal of colloid and interface science 2017-03, Vol.490, p.217-225
Main Authors: Huang, Chang-Wei, Wu, Mei-Yao, Lin, Yang-Wei
Format: Article
Language:English
Subjects:
AgNO3
BiPO4
Environmental applications
Heterostructure
Photodegradation
Solvothermal synthesis
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Summary:UV light-induced photocatalytic activity using Ag hybrid BiPO4 heterostructures. [Display omitted] •The Ag/BiPO4 showed superior photocatalytic activity for degradation of dyestuff.•The dyestuff degradation in complex matrix by the Ag/BiPO4 was evaluated.•The Ag/BiPO4 provided high stability under UV light irradiation. In this study, Ag hybrid BiPO4 (Ag/BiPO4) heterostructures were synthesized using a solvothermal method. The morphologies and optical properties of the Ag/BiPO4 heterostructures were drastically different from those of BiPO4 and were highly dependent on the AgNO3:BiPO4 weight percent during the synthesis. The three formulated heterostructures were evaluated for their photocatalytic degradation of methylene blue (MB) under UV light illumination; the 0.5%Ag/BiPO4 heterostructure was observed to result in 99% degradation of MB within 60min, a remarkably higher level of photodegradation activity than the levels caused by TiO2 and BiPO4. Furthermore, even after use for five cycles of MB degradation, the 0.5%Ag/BiPO4 heterostructure showed no observable loss in photodegradation activity and no change in XRD patterns, demonstrating its chemical and structural stability. According to the results of a systematic experimental investigation, the enhanced photodegradation activity of this Ag/BiPO4 heterostructure could be ascribed to the high position of its valence band and the highly efficient separation of photogenerated electrons and holes. Moreover, hydroxyl radicals and holes were found to be the major reactive species. Successful photodegradation of standard dye solutions, including acid blue 1, methyl orange, fast green, rhodamine B, rhodamine 6G, and MB, in real water samples was demonstrated with the 0.5%Ag/BiPO4 heterostructure, providing clear evidence of its utility for treating waste water containing organic dyes.
ISSN:0021-9797
1095-7103
DOI:10.1016/j.jcis.2016.11.074