Exploring Superacid-Promoted Skeletal Reorganization of Aliphatic Nitrogen-Containing Compounds

Maxime Artault; Thomas Cantin; Mélissa Longuet; Kassandra Vitse; Christ Daniel Matatu Mbengo; Frédéric Guégan; Bastien Michelet; Agnès Martin-Mingot; Sébastien Thibaudeau

doi:10.1002/anie.202316458

Exploring Superacid-Promoted Skeletal Reorganization of Aliphatic Nitrogen-Containing Compounds

Angew Chem Int Ed Engl. 2024 Jan 2;63(1):e202316458. doi: 10.1002/anie.202316458. Epub 2023 Nov 29.

Authors

Maxime Artault¹, Thomas Cantin¹, Mélissa Longuet¹, Kassandra Vitse¹, Christ Daniel Matatu Mbengo¹, Frédéric Guégan¹, Bastien Michelet¹, Agnès Martin-Mingot¹, Sébastien Thibaudeau¹

Affiliation

¹ IC2MP UMR CNRS 7285, Université de Poitiers, 4 rue Michel Brunet, 86073, Poitiers cedex 9, France.

PMID: 37984060
DOI: 10.1002/anie.202316458

Abstract

Here we report a method to reorganize the core structure of aliphatic unsaturated nitrogen-containing substrates exploiting polyprotonation in superacid solutions. The superelectrophilic activation of N-isopropyl systems allows for the selective formal C_sp3 -H activation/cyclization or homologation / functionalization of nitrogen-containing substrates. This study also reveals that this skeletal reorganization can be controlled through protonation interplay. The mechanism of this process involves an original sequence of C-N bond cleavage, isopropyl cation generation and subsequent C-N bond and C-C bond formation. This was demonstrated through in situ NMR analysis and labelling experiments, also confirmed by DFT calculations.

Keywords: Fluorine; Heterocycles; Polycations; Rearrangement; Superacid.

Grants and funding

Institut de chimie