Login / Signup

Cobalt Single-Atom-Intercalated Molybdenum Disulfide for Sulfide Oxidation with Exceptional Chemoselectivity.

Zhongxin ChenCuibo LiuJia LiuJing LiShibo XiXiao ChiHaisen XuIn-Hyeok ParkXinwen PengXing LiWei YuXiaowang LiuLinxin ZhongKai LengWei HuangMing Joo KohKian Ping Loh
Published in: Advanced materials (Deerfield Beach, Fla.) (2019)
The identification of chemoselective oxidation process en route to fine chemicals and specialty chemicals is a long-standing pursuit in chemical synthesis. A vertically structured, cobalt single atom-intercalated molybdenum disulfide catalyst (Co1 -in-MoS2 ) is developed for the chemoselective transformation of sulfides to sulfone derivatives. The single-atom encapsulation alters the electron structure of catalyst owing to confinement effect and strong metal-substrate interaction, thus enhancing adsorption of sulfides and chemoselective oxidation at the edge sites of MoS2 to achieve excellent yields of up to 99% for 34 examples. The synthetic scopes can be extended to sulfide-bearing alkenes, alkynes, aldehydes, ketones, boronic esters, and amines derivatives as a toolbox for the synthesis of high-value, multifunctional sulfones and late-stage functionalization of pharmaceuticals, e.g., Tamiflu. The synthetic utility of cobalt single atom-intercalated MoS2 , together with its reusability, scalability, and simplified purification process, renders it promising for industrial productions.
Keyphrases