Paper
Chromium(III)-catalyzed C(sp2)-H Alkynylation, Allylation, and Naphthalenation of Secondary Amides with Trimethylaluminum as Base.
Published Feb 18, 2020 · Mengqing Chen, Takahiro Doba, Takenari Sato
Journal of the American Chemical Society
22
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Abstract
Among base metals used for C-H activation reactions, chromium(III) is rather unexplored despite its natural abundance and low toxicity. We report herein chromium(III)-catalyzed C(sp2)-H functionalization of an ortho-position of aromatic and α,β-unsaturated secondary amides using readily available AlMe3 as a base, and using bromoalkynes, allyl bromide, and 1,4-dihydro-1,4-epoxynaphthalene as electrophiles. This redox-neutral reaction taking place at 70-90 °C requires as low as 1-2 mol% of CrCl3 or Cr(acac)3 as a catalyst without any added ligand, and tolerates functional groups such as aryl iodide, boronate, and thiophene groups. Stoichiometric and kinetics studies as well as kinetic isotope effects suggest that the catalytic cycle consists of a series of thermally stable but reac-tive intermediates bearing two molecules of the amide substrate on one chromium atom, and also that one of these chro-mate(III) complexs takes part in the alkynylation, allylation, and naphthalenation reactions. The proposed mechanism ac-counts for the effective suppression of methyl group delivery from AlMe3 for ortho-C-H methylation.
Chromium(III)-catalyzed C(sp2)-H functionalization of secondary amides with trimethylaluminum as base allows for efficient alkynylation, allylation, and naphthalenation reactions, with minimal catalyst usage and tolerance for functional groups.
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