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Enantioselective Silicon-Directed Nazarov Cyclization

Jin Cao, Mengyang Hu, Siyuan Liu, Xinyu Zhang, Shou‐Fei Zhu, Qi‐Lin Zhou

2021Journal of the American Chemical Society49 citationsDOI

Abstract

The Nazarov electrocyclization reaction is a convenient, widely used method for construction of cyclopentenones. In the past few decades, catalytic asymmetric versions of the reaction have been extensively studied, but the strategies used to control the position of the double bond limit the substituent pattern of the products and thus the synthetic applications of the reaction. Herein, we report highly enantioselective silicon-directed Nazarov reactions which were cooperatively catalyzed by a Lewis acid and a chiral Brønsted acid. The chiral cyclopentenones we synthesized using this method generally cannot be obtained by means of other catalytic enantioselective reactions, including previously reported methods for enantioselective Nazarov cyclization. The silicon group in the dienone substrate stabilized the β-carbocation of the intermediate, thereby determining the position of the double bond in the product. Mechanistic studies suggested that the combination of Lewis and Brønsted acids synergistically activated the dienone substrate and that the enantioselectivity of the reaction originated from a chiral Brønsted acid promoted proton transfer reaction of the enol intermediate.

Topics & Concepts

Enantioselective synthesisChemistryCarbocationLewis acids and basesBrønsted–Lowry acid–base theoryCatalysisSubstituentEnolSubstrate (aquarium)Asymmetric inductionCombinatorial chemistryProtonationStereochemistryOrganic chemistryOceanographyGeologyIonTraditional and Medicinal Uses of AnnonaceaeAsymmetric Synthesis and CatalysisSynthetic Organic Chemistry Methods