Details

Autor(en) / Beteiligte

• Sun, Dai
• Wang, Yu-Le
• Zhu, Peng-Yue
• Ren, Hai-Tao
• Liu, Yong
• Wu, Song-Hai
• Jia, Shao-Yi
• Han, Xu

Titel

Contribution of H‑Abstraction to Photocatalytic Oxidation of As(III) by Bi2.15WO6

Ist Teil von

• Journal of physical chemistry. C, 2021-12, Vol.125 (48), p.26492-26502

Ort / Verlag

American Chemical Society

Erscheinungsjahr

2021

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Mechanisms involved in the photocatalytic oxidation of As­(III) are complicated in that various oxidizing species (such as h+, •OH, and O2 •–) have been suggested to play important roles in different photocatalytic systems. In this study, Bi2.15WO6 shows high reactivity in the photocatalytic oxidation of As­(III) under visible light. Quenching experiments indicate that apart from h+, the surface superoxo (Bi–OO•) and peroxo species (Bi–OOH) formed on Bi2.15WO6 also contribute to As­(III) oxidation. The increased production of H2O2 with increasingly consumed As­(III) or with the addition of H-donors such as glucose and various phenolics further reveals that H-abstraction from As­(III) or H-donors to Bi–OO• and then to Bi–OOH is an important pathway involved in H2O2 production and As­(III) oxidation. In addition, various characterizations confirm that the As­(III)–O–Bi­(III) surface complexes formed on Bi2.15WO6 enhance the photocatalytic reactivity of Bi2.15WO6 via the ligand-to-metal charge transfer pathway. We therefore suggest that dissolved oxygen is sequentially reduced to Bi–OO• and then to Bi–OOH on Bi2.15WO6, accompanied by H-abstraction from adsorbed or aqueous As­(III) to Bi–OO• and Bi–OOH with the formation of H2O2 and the oxidation of As­(III). This work enriches our understanding of the mechanisms involved in the photocatalytic oxidation of As­(III).