Photocatalyzed Diastereoselective Isomerization of Cinnamyl Chlorides to Cyclopropanes. Academic Article uri icon

abstract

  • Endergonic isomerizations are thermodynamically unfavored processes that are difficult to realize under thermal conditions. We report a photocatalytic and diastereoselective isomerization of acyclic cinnamyl chlorides to strained cyclopropanes. Quantum mechanical calculations (uM06-2X and DLPNO), including TD-DFT calculations, and experimental studies provide evidence for the energy transfer from an iridium photocatalyst to the allylic chloride substrate followed by C-Cl homolytic cleavage. Subsequent Cl radical migration forms a localized triplet 1,3-diradical intermediate that, after intersystem crossing, undergoes ring-closing to form the desired product. The mild reaction conditions are compatible with a broad range of functional groups to generate chlorocyclopropanes in high yields and diastereoselectivities. A more efficient process is developed by addition of a catalytic amount of a nickel complex, and we propose a novel role for this cocatalyst to recycle an allyl chloride byproduct generated in the course of the reaction. The reaction is also shown to be stereoconvergent, as an E/Z mixture of cinnamyl chlorides furnish the anti-chlorocyclopropane product in high diastereoselectivity. We anticipate that the use of a visible light activated photocatalyst to transform substrates in combination with a transition metal catalyst to recycle byproducts back into the catalytic cycle will provide unique opportunities for the discovery of new reactivity.

published proceedings

  • J Am Chem Soc

altmetric score

  • 9.75

author list (cited authors)

  • Xu, B., Troian-Gautier, L., Dykstra, R., Martin, R. T., Gutierrez, O., & Tambar, U. K.

citation count

  • 31

complete list of authors

  • Xu, Bin||Troian-Gautier, Ludovic||Dykstra, Ryan||Martin, Robert T||Gutierrez, Osvaldo||Tambar, Uttam K

publication date

  • April 2020