Details

Autor(en) / Beteiligte

• Ren, Hai-Tao
• Cai, Chao-Chen
• Zhu, Peng-Yue
• Wang, Cong
• Wu, Song-Hai
• Liu, Yong
• Han, Xu

Titel

Photocatalytic Generation of H2O2 Via a Hydrogen-Abstraction Pathway by Bi2.15WO6 under Visible Light

Ist Teil von

• Langmuir, 2024-04, Vol.40 (14), p.7384-7394

Ort / Verlag

American Chemical Society

Erscheinungsjahr

2024

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Photocatalytic technology is a popular research area for converting solar energy into environmentally friendly chemicals and is considered the greenest approach for producing H2O2. However, the corresponding reactive oxygen species (ROS) and pathway involved in the photocatalytic generation of H2O2 by the Bi2.15WO6-glucose system are still not clear. Quenching experiments have established that neither •OH nor h+ contribute to the formation of H2O2, and show that the formed surface superoxo (Bi–OO•) and peroxo (Bi–OOH) species are the predominant ROS in H2O2 generation. In addition, various characterizations indicate the enhanced electron-transfer on the surface of Bi2.15WO6 with increasing contents of glucose via the ligand-to-metal charge transfer pathway, confirming H-transfer from glucose to Bi–OO• or Bi–OOH. The increased production of H2O2 with decreasing bond dissociation energy (BDEO–H) values of various phenolic compounds again supports the H-transfer mechanism from phenolic compounds to Bi–OO• and then to Bi–OOH. DFT calculations further reveal that on the Bi2.15WO6 surface, oxygen is sequentially reduced to Bi–OO• and Bi–OOH, while H-transfer from H2O or glucose to Bi–OO• and Bi–OOH, resulting in the production of H2O2. The lower energy barrier of H-transfer from adsorbed glucose (0.636 eV) than that from H2O (1.157 eV) indicates that H-transfer is more favorable from adsorbed glucose. This work gives new insight into the photocatalytic generation of H2O2 by Bi2.15WO6 in the presence of glucose/phenolic compounds via the H-abstraction pathway.