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Literature DB >> 35669035

Iron-Catalyzed Photoinduced LMCT: a 1° C-H Abstraction Enables Skeletal Rearrangements and C(sp³)-H Alkylation.

Yi Cheng Kang¹, Sean M Treacy¹, Tomislav Rovis¹.

Abstract

Herein we disclose an iron-catalyzed method to access skeletal rearrangement reactions akin to the Dowd-Beckwith ring expansion from unactivated C(sp3)-H bonds. Photoinduced ligand-to-metal charge transfer at the iron center generates a chlorine radical, which abstracts electron-rich C(sp3)-H bonds. The resulting unstable alkyl radicals can undergo rearrangement in the presence of suitable functionality. Addition to an electron deficient olefin, recombination with a photoreduced iron complex, and subsequent protodemetallation allows for redox-neutral alkylation of the resulting radical. Simple adjustments to the reaction conditions enable the selective synthesis of the directly alkylated or the rearranged-alkylated products. As a radical clock, these rearrangements also enable the measurement of rate constants of addition into various electron deficient olefins in the Giese reaction.

Entities: Chemical

Keywords: Dowd-Beckwith; LMCT; iron catalysis; photocatalysis; primary C(sp3)-H alkylation; skeletal rearrangement

Year: 2021 PMID： 35669035 PMCID： PMC9164223 DOI： 10.1021/acscatal.1c02285

Source DB: PubMed Journal: ACS Catal Impact factor: 13.700

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