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Cooperative Hydrogen-Bond-Donor Catalysis with Hydrogen Chloride Enables Highly Enantioselective Prins Cyclization Reactions

Dennis A. Kutateladze, Eric N. Jacobsen

2021Journal of the American Chemical Society41 citationsDOIOpen Access PDF

Abstract

Cooperative asymmetric catalysis with hydrogen chloride (HCl) and chiral dual-hydrogen-bond donors (HBDs) is applied successfully to highly enantioselective Prins cyclization reactions of a wide variety of simple alkenyl aldehydes. The optimal chiral catalysts were designed to withstand the strongly acidic reaction conditions and were found to induce rate accelerations of 2 orders of magnitude over reactions catalyzed by HCl alone. We propose that the combination of strong mineral acids and chiral hydrogen-bond-donor catalysts may represent a general strategy for inducing enantioselectivity in reactions that require highly acidic conditions.

Topics & Concepts

ChemistryEnantioselective synthesisCatalysisHydrogen bondHydrogenPrins reactionOrganic chemistryHydrogen chlorideCombinatorial chemistryMoleculeSynthetic Organic Chemistry MethodsFuel Cells and Related MaterialsAsymmetric Hydrogenation and Catalysis
Cooperative Hydrogen-Bond-Donor Catalysis with Hydrogen Chloride Enables Highly Enantioselective Prins Cyclization Reactions | Litcius