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Lewis Acid-Catalyzed Carbonyl-Ene Reaction: Interplay between Aromaticity, Synchronicity, and Pauli Repulsion

Humberto A. Rodríguez, Daniel A. Cruz, Juan I. Padrón, Israel Fernández

2023The Journal of Organic Chemistry20 citationsDOIOpen Access PDF

Abstract

The physical factors governing the catalysis in Lewis acid-promoted carbonyl-ene reactions have been explored in detail quantum chemically. It is found that the binding of a Lewis acid to the carbonyl group directly involved in the transformation greatly accelerates the reaction by decreasing the corresponding activation barrier up to 25 kcal/mol. The Lewis acid makes the process much more asynchronous and the corresponding transition state less in-plane aromatic. The remarkable acceleration induced by the catalyst is ascribed, by means of the activation strain model and the energy decomposition analysis methods, mainly to a significant reduction of the Pauli repulsion between the key occupied π-molecular orbitals of the reactants and not to the widely accepted stabilization of the LUMO of the enophile.

Topics & Concepts

ChemistryCatalysisLewis acids and basesEne reactionPauli exclusion principleComputational chemistryPhotochemistryLewis acid catalysisAromaticityHOMO/LUMOTransition stateMedicinal chemistryOrganic chemistryMoleculePhysicsCondensed matter physicsSynthesis and Properties of Aromatic CompoundsAdvanced Chemical Physics StudiesOrganoboron and organosilicon chemistry
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