Sidi Mohamed Mekelleche scite author profile

The kinetic solvent effects on the 1,3‐dipolar cycloaddition (13DC) of benzonitrile N‐oxide with cyclopentene [T. Rispens and J. B. F. N. Engberts, J. Phys. Org. Chem. 2005; 18, 908–917] have been studied using density functional theory (DFT) at the B3LYP/6‐31G(d) level. Solvent effects were analyzed by means of the polarizable continuum model (PCM). The analysis of the potential energy surface shows that this reaction follows an asynchronous concerted mechanism. The topological analysis of the electron localization function (ELF) of the turning points along the reaction pathway explains the diradical nature of mechanism of this reaction. Inclusion of solvent effects does not substantially modify this behavior. The present study points out that, contrary to Diels–Alder reactions, the increase in the solvent polarity leads to a slow inhibition of the 13DC reaction, because of the low polarity of the transition state. Explicit solvation involving the coordination of one water molecule to the dipole puts in evidence the importance of hydrogen bonding in the modest acceleration of this 13DC reaction. These results are in good agreement with experimental outcomes. Copyright © 2011 John Wiley & Sons, Ltd.

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Understanding the mechanism of the Povarov reaction. A DFT study

Domingo

Aurell

Sáez

et al. 2014

RSC Adv.

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The molecular mechanism of the Povarov reaction in acetonitrile has been studied at the MPWB1K/6-311G** level of theory. This reaction follows a domino process that comprises two sequential reactions: (i) a Lewis acid catalysed aza-Diels-Alder (A-DA) reaction between a N-aryl imine and a nucleophilic ethylene yielding a formal [4 + 2] cycloadduct; (ii) a stepwise 1,3-hydrogen shift at this intermediate affording the final tetrahydroquinoline. At this computational level, the Lewis acid catalysed A-DA reaction presents a two-step mechanism as a consequence of the large stabilisation of the corresponding zwitterionic intermediate. Our study allows establishing that the N-aryl substituent has no remarkable incidence in the activation energy, but the presence of a second C-aryl substituent has a relevant role in the reaction rate. Analysis of the DFT-based reactivity indices of the reagents provides further explanation of the behaviours of the mechanism of the A-DA reaction involved in the Povarov reaction. Scheme 1 The Povarov reaction. Scheme 2 One-pot three-component Povarov reaction.

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Correlation of aqueous pKa values of carbon acids with theoretical descriptors: A DFT study

Charif

Mekelleche

Villemin

et al. 2007

Journal of Molecular Structure: THEOCHEM

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