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Organometallics [LCSOM/ Biophysique des membranes et RMN]

May 6 2024

Abstract:

This study addresses the chemoselectivity of the catalyzed reduction of a series of variously substituted γ-lactams by Et3SiH mediated by a pentamethylcyclopentadienyl iridacyclic acetonitrilo salt derived from benzo[h]quinoline. Introduction of an unsaturation within the 5-membered ring of the γ-lactam annihilates the precedence of the amide function over the capture of the silylium cation, which results in a lower chemoselectivity. Monitoring over time the catalyzed reduction of a γ-lactam bearing a carboxylic ester appendage by 1H NMR spectroscopy revealed pseudo-zero-order kinetics for the prior hydrosilylation of the lactam’s amide. This primary hydrosilylation reaction is followed by the full conversion of the formed intermediate into a pyrrolidine following a pseudo-first-order rate law. Under anhydrous conditions, the hydrosilylation of the pendant ester function occurs only in a late stage once the γ-lactam’s amide function has underwent full reduction of the carbonyl function. DFT investigations show that chemoselectivity is governed (1) by the affinity of the organic substrate for the triethylsilylium cation produced by the electrophilic activation of Et3SiH by the Ir(III) catalyst and (2) by the ability of the in situ-formed hydrido-iridium(III) intermediate to transfer hydride to the activated substrate.

 GA

Reference:

Joint Experimental/Theoretical Investigation of the Chemoselective Iridium(III) Metallacycle-Catalyzed Reduction of Substituted γ-Lactams by Et3SiH

Halima Khadraoui, Chunchesh Malangi Gajendramurthy, Sara Figueirêdo de Alcântara Morais, Yann Cornaton, Hédi M’rabet, Philippe Bertani, Aïcha Arfaoui, and Jean-Pierre Djukic

Organometallics 2024 - DOI : https://doi.org/10.1021/acs.organomet.4c00044

 

Contact:

Jean-Pierre Djukic, équipe LCSOM , Institut de Chimie (UMR 7177).