What question did this study set out to answer?

The goal is to improve enantioselectivity in cyclobutane synthesis through photocycloaddition of indoles.

March 21, 2026

Enantioselective Intermolecular Photocycloaddition of Indoles

Key Points

The goal is to improve enantioselectivity in cyclobutane synthesis through photocycloaddition of indoles.
Conducted intermolecular [2+2] cycloaddition under visible light.
Utilized chiral oxazaborolidinium ion for substrate engagement.
Investigated various alkene and aryl allene reactants.
Successfully synthesized enantioenriched cyclobutane products.
Expanded substrate compatibility and functional group tolerance.
Achieved significant improvements in enantioselectivity compared to previous methods.

Abstract

The synthesis of cyclobutane-fused heterocycles via photocycloaddition (PCA) of heteroarenes has been widely explored. However, achieving high enantioselectivity remains challenging. Represented herein is a report on an efficient and enantioselective intermolecular 2+2 cycloaddition of indoles with various alkenes and aryl allenes under visible light irradiation. A chiral oxazaborolidinium ion (COBI) was used to engage indole substrates via efficient BCOBI-Osub coordination. Upon photoexcitation, the resulting adduct undergoes radical addition to alkenes, the enantio-determining step, followed by radical recombination to afford cyclobutane products. This strategy significantly expands substrate compatibility and functional group tolerance, providing an efficient and versatile route to enantioenriched cyclobutane-fused heterocycles.

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Enantioselective Intermolecular Photocycloaddition of Indoles

Key Points

Abstract

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