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The synthesis of Bi2MoO6 with metallic and nonmetallic vacancies for degradation of LVF in visible light

APPLIED SURFACE SCIENCE [2025]
Jiahui Chen, Yue Meng, Zhiling Huang, Bo Xie, Zheming Ni, Shengjie Xia
ABSTRACT

Defect engineering advantages include regulating the band structure of photocatalytic materials, inhibiting the recombination of photoelectron-hole pairs, and promoting the conversion of photogenerated electrons into active radicals. In this paper, bismuth molybdate (Bi 2 MoO 6 ) photocatalysts with double vacancies (V Bi-O -BMO) were prepared by solvothermal and ionic eutectic solvent methods. EPR, TEM, and XPS results confirmed the successful construction of oxygen and bismuth vacancies on Bi 2 MoO 6 . The photocatalytic performance of the prepared catalysts was investigated by photodegradation of levofloxacin hydrochloride (LVF) under visible light. The double vacancies markedly enhanced the photocatalytic properties of Bi 2 MoO 6 , with the photodegradation rate of V Bi-O -BMO reaching 88.36 % for 40 mg/L LVF within 60 min. Kinetic studies have demonstrated that the reaction rate constant of V Bi-O -BMO can reach 0.0351 min −1 , which is 3.2 times higher than that of bulk-BMO. This can be attributed to the favorable synergistic effect of oxygen and bismuth double vacancies. V O not only captures oxygen and electrons, facilitating the generation of superoxide radicals ( O 2 − ), but also elevates the conduction band position and boosts the reduction capability of Bi 2 MoO 6 . V Bi not only captures photogenerated holes (h + ) to directly impact LVF degradation, but also promotes interfacial charge transfer and inhibits the recombination of electron-hole pairs. Furthermore, the intermediates and degradation pathways of LVF photodegradation were surmised based on the LC-MS analysis. The reaction mechanism of LVF photodegradation by V Bi-O -BMO was elucidated through the application of the free radical pathway. This study demonstrates a methodology for the creation of double vacancies in catalysts and the significant potential of V Bi-O -BMO for the remediation of antibiotic residues in water under visible light.

MATERIALS

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