Issue 1, 2023

C–N bond metathesis: mechanistic insight into palladium-catalyzed ring-closing using aminal species

Abstract

C–N bond metathesis is a straightforward and step-economical approach for C–N bond construction. Typically, the oxidation state of the transition metal remains unchanged during C–N bond metathesis. In this report, we present computational evidence that supports a mechanism in which a new type of reversible reductive elimination/oxidative addition mode is involved in the C–N bond metathesis reaction. This reversible reductive elimination/oxidative addition-induced C–N bond metathesis pathway was found to be lower in energy compared with transimination from a Huang-complex, which is important for understanding the mechanism of Pd-catalyzed C–N bond formation reactions. Non-covalent interaction analysis was conducted to elucidate the details of the diene 1,4-migratory insertion step process and to investigate the origin of stereoselectivity for this type of reaction. We anticipate that this novel C–N bond metathesis mode may extend to other cross-coupling processes and may provide a theoretical guide for further experimental investigations.

Graphical abstract: C–N bond metathesis: mechanistic insight into palladium-catalyzed ring-closing using aminal species

Supplementary files

Article information

Article type
Research Article
Submitted
16 Oct 2022
Accepted
18 Nov 2022
First published
24 Nov 2022

Org. Chem. Front., 2023,10, 181-188

C–N bond metathesis: mechanistic insight into palladium-catalyzed ring-closing using aminal species

S. Liu, D. Zhang, M. Xiao, C. Pu, X. Zhang, X. Yang, T. Zhang and R. Bai, Org. Chem. Front., 2023, 10, 181 DOI: 10.1039/D2QO01638A

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