Polarizable ab initio QM/MM Study of the Reaction Mechanism of N - tert -Butyloxycarbonylation of Aniline in [EMIm][BF₄]

-t e r t-butoxycarbonylation of amines in solution (water, organic solvents, or ionic liquids) is a common reaction for the preparation of drug molecules. To understand the reaction mechanism and the role of the solvent, quantum mechanical/molecular mechanical simulations using a polarizable multipo...

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Veröffentlicht in:Molecules (Basel, Switzerland) Switzerland), 2018-10, Vol.23 (11), p.2830
Hauptverfasser: Vázquez-Montelongo, Erik Antonio, Vázquez-Cervantes, José Enrique, Cisneros, G Andrés
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Sprache:eng
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Zusammenfassung:-t e r t-butoxycarbonylation of amines in solution (water, organic solvents, or ionic liquids) is a common reaction for the preparation of drug molecules. To understand the reaction mechanism and the role of the solvent, quantum mechanical/molecular mechanical simulations using a polarizable multipolar force field with long⁻range electrostatic corrections were used to optimize the minimum energy paths (MEPs) associated with various possible reaction mechanisms employing the nudged elastic band (NEB) and the quadratic string method (QSM). The calculated reaction energies and energy barriers were compared with the corresponding gas-phase and dichloromethane results. Complementary Electron Localization Function (ELF)/NCI analyses provide insights on the critical structures along the MEP. The calculated results suggest the most likely path involves a sequential mechanism with the rate⁻limiting step corresponding to the nucleophilic attack of the aniline, followed by proton transfer and the release of CO 2 without the direct involvement of imidazolium cations as catalysts.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules23112830