Hydrogen-Bond-Donor-Directed Switching of Enantioselectivity in the Vinylogous Aldol–Cyclization Cascade Reaction of Prostereogenic 3-Alkylidene Oxindoles with Isatins and <i>o</i>-Quinones
Yun‐Jie Tsou, Nadaraj Sathishkumar, I‐Ting Chen, Ting-An Lee, Hsin‐Tsung Chen, Jeng‐Liang Han
Abstract
In this study, we reported a hydrogen-bond-donor-directed enantiodivergent vinylogous aldol–cyclization cascade reaction of 3-alkylidene oxindoles with isatins and o-quinones. Both enantiomers can be prepared by thiourea or squaramide cinchona alkaloid bifunctional organocatalysts with the same quinine scaffold. Kinetic study data provided the possible reaction mechanism for the vinylogous aldol–cyclization cascade reaction. The DFT calculation data showed the geometry of the generated dienolates from pronucleophiles dominated the observed switch of enantioselectivity.
Topics & Concepts
ChemistrySquaramideAldol reactionBifunctionalCinchonaCascade reactionHydrogen bondEnantiomerThioureaStereochemistryEnantioselective synthesisOrganocatalysisOrganic chemistryCatalysisMoleculeAsymmetric Synthesis and CatalysisAxial and Atropisomeric Chirality SynthesisChemical synthesis and alkaloids