Solid-state molecular oxygen activation using ball milling and a piezoelectric material for aerobic oxidation of thiols

Gefei Wang; Jiajia Jia; Yu He; Diandian Wei; Mingyu Song; Lei Zhang; Ganzhong Li; Heng Li; Bingxin Yuan

doi:10.1039/d2ra02255a

Solid-state molecular oxygen activation using ball milling and a piezoelectric material for aerobic oxidation of thiols

RSC Adv. 2022 Jun 22;12(29):18407-18411. doi: 10.1039/d2ra02255a.

Authors

Gefei Wang¹, Jiajia Jia¹, Yu He¹, Diandian Wei¹, Mingyu Song¹, Lei Zhang¹, Ganzhong Li¹, Heng Li¹, Bingxin Yuan¹

Affiliation

¹ Green Catalysis Center, College of Chemistry, Zhengzhou University Zhengzhou Henan 450001 China bxyuan@zzu.edu.cn.

Abstract

The agitation of BaTiO₃ via ball milling converts mechanical energy into electrical energy, leading to the reduction of molecular oxygen via a single electron transfer pathway analogous to the photocatalytic reaction. This mechanoredox strategy for the oxidative coupling of thiols could eliminate waste and develop a recyclable methodology to accomplish organic transformations in a greener fashion, exhibiting promising potential for large-scale chemical manufacturing.