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Abstract
This study investigates the mechanism of the [2+2] photocycloaddition reaction of 3-(but-3-enyl)oxyquinolone using a chiral xanthone-containing triplet sensitizer. Quantum chemical computer models were utilized to examine the substrate-catalyst encounter complex structures, which were classified into syn- and anti-adducts. The photoactivation steps of the substrate were analyzed based on the Marcus equation of electron transfer, including intersystem crossings (ISC) and outer sphere triplet-triplet energy transfer (TTEnT). Our results show that the calculated rates of ISC are comparable for the two adducts, while the computed rates of TTEnT differ between them due to the orbital overlap between the donor and acceptor sites. After the TTEnT, a stereospecific cyclization occurs, completing the catalytic cycle. We propose a novel strategy to improve stereoselectivity by exploiting the intrinsic difference in TTEnT rates between the two encounter complex isomers.
Supplementary materials
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Computational details and supplementary figures and tables.
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