Photoelectrocatalyzed Synthesis of Chiral Cyclobutanes

Mark Lautens; Alexa Torelli

doi:10.1055/s-0043-1772987

Synfacts, Inhaltsverzeichnis

Synfacts 2024; 20(02): 0147
DOI: 10.1055/s-0043-1772987

Metals in Synthesis

Photoelectrocatalyzed Synthesis of Chiral Cyclobutanes

Rezensent(en):

Mark Lautens

,

Alexa Torelli

Abstract

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Xiong P, Ivlev I, Meggers SE. * Philipps-Universität Marburg, Germany
Photoelectrochemical Asymmetric Dehydrogenative [2 + 2] Cycloaddition between C–C Single and Double Bonds via the Activation of Two C(sp³)–H Bonds.

Nat. Catal. 2023;
DOI: 10.1038/s41929-023-01050-y

Key words

rhodium catalysis - photoelectrocatalysis - C–H bond activation

Significance

Meggers and co-workers describe an enantioselective [2 + 2] photocycloaddition between alkyl ketones and alkenes to synthesize cyclobutanes. The method utilizes electrocatalysis to activate two C(sp³ )–H bonds, and, under blue light irradiation, promotes coupling with two C(sp²) carbons. The procedure highlights a sustainable approach to asymmetric small ring synthesis.

Comment

Alkyl tethered (hetero)aryl ketones and various aryl- and alkyl-substituted alkenes can react in a highly enantioselective fashion. The transformation can be performed on gram-scale. It is proposed that the role of ferrocene serves as a redox mediator to turn over the electrocatalytic system, while a chiral rhodium Lewis acid mediates the dehydrogenation of the ketone (I to VI) and the subsequent cycloaddition (VII to IX).

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