Issue 1, 2023

Precise control of the site selectivity in ruthenium-catalyzed C–H bond amidations using cyclic amides as powerful directing groups

Abstract

Selective C–H functionalizations aiming at the formation of new C–N bonds is of paramount importance in the context of step- and atom-economy methodologies in organic synthesis. Although the implementation of noble metal catalysts is prevalent, more benign cobalt pre-catalysts have recently appeared to be promising. However, they sometimes feature selectivity issues that limit their applicability in late-stage functionalization. Herein, we report on a highly reactive ruthenium-based catalytic system displaying excellent levels of mono-, regio- and site-selectivity by exploiting a series of biologically-relevant cyclic amides as weak directing groups. The use of dioxazolone derivatives as amidating reagents overcomes the issues encountered in the use of unstable azide derivatives for such transformations and it enables us to perform these reactions under very mild reaction conditions (air, 40 °C). Moreover, a combination of deuteration experiments and a comparative study with different types of directing groups highlights the relevance of weak amide directing groups for enabling the formation of six-membered cycloruthenate intermediates in the key elementary steps of the catalytic cycle. In addition, DFT computational calculations were carried out for the first time for studying ruthenium-catalyzed C–N bond-forming processes via C–H activation assisted by weak directing groups, thereby elucidating the origin of the regio- and site-selectivity.

Graphical abstract: Precise control of the site selectivity in ruthenium-catalyzed C–H bond amidations using cyclic amides as powerful directing groups

Supplementary files

Article information

Article type
Research Article
Submitted
08 9月 2022
Accepted
03 11月 2022
First published
05 11月 2022
This article is Open Access
Creative Commons BY license

Org. Chem. Front., 2023,10, 42-53

Precise control of the site selectivity in ruthenium-catalyzed C–H bond amidations using cyclic amides as powerful directing groups

Y. Yuan, Q. Lu, X. Zhu, S. Posada-Pérez, M. Solà, A. Poater, T. Roisnel and R. Gramage-Doria, Org. Chem. Front., 2023, 10, 42 DOI: 10.1039/D2QO01434C

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