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Energetic Aspects and Molecular Mechanism of 3-Nitro-substituted 2-Isoxazolines Formation via Nitrile N-Oxide [3+2] Cycloaddition: An MEDT Computational Study

Ewa Dresler, Aneta Wróblewska, Radomir Jasiński

2024Molecules23 citationsDOIOpen Access PDF

Abstract

and electron-rich alkenes were explored on the basis of the wb97xd/6-311+G(d) (PCM) quantum chemical calculations. It was established that the thermodynamic factors allow for the formation of stable cycloadducts along all considered models. The analysis of the kinetic parameters of the main processes show that all [3+2] cycloadditions should be realized with full regioselectivity. In all cases, the formation of 5-substituted 3-nitro-2-isoxazolidines is clearly preferred. It is interesting that regiodirection is not determined by the local electrophile/nucleophile interactions but by steric effects. From a mechanistic point of view, all considered reactions should be treated as polar, one-step reactions. All attempts to locate the hypothetical zwitterionic intermediates along the cycloaddition paths were, however, not successful.

Topics & Concepts

NitrileCycloadditionNitroMechanism (biology)ChemistryOxideComputational chemistryMedicinal chemistryCombinatorial chemistryOrganic chemistryCatalysisPhysicsQuantum mechanicsAlkylOrganic Chemistry Cycloaddition ReactionsChemical Reaction MechanismsSynthesis and Catalytic Reactions
Energetic Aspects and Molecular Mechanism of 3-Nitro-substituted 2-Isoxazolines Formation via Nitrile N-Oxide [3+2] Cycloaddition: An MEDT Computational Study | Litcius