Efficient photodegradation of PFOA using spherical BiOBr modified TiO2 via hole-remained oxidation mechanism

• Published in: Chemosphere (Oxford) Vol. 298; p. 134176
• Main Authors: Chen, Fengjie, He, Anen, Wang, Yarui, Yu, Wanchao, Chen, Haoze, Geng, Fanglan, Li, Zhunjie, Zhou, Zhen, Liang, Yong, Fu, Jianjie, Zhao, Lixia, Wang, Yawei
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.07.2022
• Subjects: BiOBr-Modified TiO2; Direct oxidation with holes; Holes remained; PFOA photodegradation; Direct oxidation with holes; Holes remained; PFOA photodegradation; BiOBr-Modified TiO2
• ISSN: 0045-6535; 1879-1298
• DOI: 10.1016/j.chemosphere.2022.134176

Photo-induced holes (h+) oxidation is an efficient approach for perfluorooctanoic acid (PFOA; C7F15COOH) removal. To maintain a high amount of h+ on the surface of photocatalysts participating in the PFOA photodegradation could be a critical issue. Herein, a highly efficient spherical BiOBr-modified nano-TiO2 (P25) was synthesised and used for PFOA photodegradation through direct oxidation with h+. A high number of h+ could be generated and remain on the surface of P25/BiOBr due to the appropriate position of the conduction band (CB) and valence band (VB) levels between P25 and BiOBr. Meanwhile, PFOA molecules were coordinated to the P25/BiOBr's surface via unidentate binding, being directly activated and oxidised by h+, resulting in a decomposition yield of 99.5% (100 mg/L) under simulated solar light irradiation within 100 min, at the initial pH condition (3.5). A stepwise photodegradation pathway was proposed due to the significant intermediates detected as the short-chain perfluorinated carboxylic acids (C2–C7). Reactive oxygen species (ROS) generation, scavenging and trapping analysis indicated that the direct oxidation on h+ followed PFOA degradation. In a real aqueous environment of Tangxun lake (adjusted pH 3.5), stable common anions and natural organic matter (NOM) would restrain the PFOA photodegradation. However, adding 10 mg/L of NO3− or HA could reduce the inhibition effect of PFOA photodegradation. These findings gave an alternative strategy to drive an h+ directly oxidation to treat PFOA contaminated water bodies. [Display omitted] •An efficient TiO2/BiOBr photocatalyst was synthesised for PFOA photodegradation.•More Holes can be generated and remained the outer sphere of TiO2/BiOBr.•PFOA can be directly oxidised by photogenerated holes on TiO2/BiOBr.•The holes direct oxidation mechanism for PFOA photodegradation was verified.•The preliminary practicability of P25/BiOBr in Tangxun Lake was investigated.