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Literature DB >> 30644639

Enantioselective Visible-Light-Mediated Formation of 3-Cyclopropylquinolones by Triplet-Sensitized Deracemization.

Andreas Tröster¹, Andreas Bauer¹, Christian Jandl¹, Thorsten Bach¹.

Abstract

3-Allyl-substituted quinolones undergo a triplet-sensitized di-π-methane rearrangement reaction to the corresponding 3-cyclopropylquinolones upon irradiation with visible light (λ=420 nm). A chiral hydrogen-bonding sensitizer (10 mol %) was shown to promote the reaction enantioselectively (88-96 % yield, 32-55 % ee). Surprisingly, it was found that the enantiodifferentiation does not occur at the state of initial product formation but that it is the result of a deracemization event. The individual parameters that control the distribution of enantiomers in the photostationary state have been identified.

Entities: Chemical

Keywords: chiral resolution; enantioselectivity; hydrogen bonds; photochemistry; small ring systems

Year: 2019 PMID： 30644639 DOI： 10.1002/anie.201814193

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

5 in total

Enantioselective Visible-Light-Mediated Formation of 3-Cyclopropylquinolones by Triplet-Sensitized Deracemization.

1. Asymmetric Photocatalysis Enabled by Chiral Organocatalysts.

2. Light-driven deracemization enabled by excited-state electron transfer.

Review 3. Chiral Photocatalyst Structures in Asymmetric Photochemical Synthesis.

4. Complex Carbocyclic Skeletons from Aryl Ketones through a Three-Photon Cascade Reaction.

Review 5. Construction of Chiral Cyclic Compounds Enabled by Enantioselective Photocatalysis.