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. 2022 May;605(7910):477-482.
doi: 10.1038/s41586-022-04636-x. Epub 2022 Mar 21.

Intermolecular [2π+2σ]-photocycloaddition enabled by triplet energy transfer

Roman Kleinmans #  1 Tobias Pinkert #  1 Subhabrata Dutta  1 Tiffany O Paulisch  1 Hyeyun Keum  1   2   3 Constantin G Daniliuc  1 Frank Glorius  4
Affiliations

Intermolecular [2π+2σ]-photocycloaddition enabled by triplet energy transfer

Roman Kleinmans et al. Nature. 2022 May.

Abstract

For more than one century, photochemical [2+2]-cycloadditions have been used by synthetic chemists to make cyclobutanes, four-membered carbon-based rings. In this reaction, typically two olefin subunits (two π-electrons per olefin) cyclize to form two new C-C σ-bonds. Although the development of photochemical [2+2]-cycloadditions has made enormous progress within the last century, research has been focused on such [2π+2π]-systems, in which two π-bonds are converted into two new σ-bonds1,2. Here we report an intermolecular [2+2]-photocycloaddition that uses bicyclo[1.1.0]butanes as 2σ-electron reactants3-7. This strain-release-driven [2π+2σ]-photocycloaddition reaction was realized by visible-light-mediated triplet energy transfer catalysis8,9. A simple, modular and diastereoselective synthesis of bicyclo[2.1.1]hexanes from heterocyclic olefin coupling partners, namely coumarins, flavones and indoles, is disclosed. Given the increasing importance of bicyclo[2.1.1]hexanes as bioisosteres-groups that convey similar biological properties to those they replace-in pharmaceutical research and considering their limited access10,11, there remains a need for new synthetic methodologies. Applying this strategy enabled us to extend the intermolecular [2+2]-photocycloadditions to σ-bonds and provides previously inaccessible structural motifs.

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