Mechanistic insights into rare-earth-catalysed CH alkylation of sulfides: sulfide facilitating alkene insertion and beyond

• Published in: RSC advances Vol. 12; no. 22; pp. 13593 - 13599
• Main Authors: Zhou, Yu, Wu, Ping, Cao, Fanshu, Shi, Lei, Zhang, Ni, Xue, Zuqian, Luo, Gen
• Format: Journal Article
• Published: 05.05.2022
• ISSN: 2046-2069
• DOI: 10.1039/d2ra02180c

The catalytic CH alkylation with alkenes is of much interest and importance, as it offers a 100% atom efficient route for CC bond construction. In the past decade, great progress in rare-earth catalysed CH alkylation of various heteroatom-containing substrates with alkenes has been made. However, whether or how a heteroatom-containing substrate would influence the coordination or insertion of an alkene at the catalyst metal center remained elusive. In this work, the mechanism of Sc-catalysed CH alkylation of sulfides with alkenes and dienes has been carefully examined by DFT calculations, which revealed that the alkene insertion could proceed via a sulfide-facilitated mechanism. It has been found that a similar mechanism may also work for the CH alkylation of other heteroatom-containing substrates such as pyridine and anisole. Moreover, the substrate-facilitated alkene insertion mechanism and a substrate-free one could be switched by fine-tuning the sterics of catalysts and substrates. This work provides new insights into the role of heteroatom-containing substrates in alkene-insertion-involved reactions, and may help guide designing new catalysis systems. The alkene insertion via the heteroatom-containing substrate facilitated mechanism were computationally revealed in rare-earth-catalyzed CH alkylation of sulfides and other heteroatom-containing substrates such as pyridines and anisoles.