Nitin R. Gulvi scite author profile

The present work comprises exploring the efficacies of the chiral organocatalysts employed in the classic Diels‐Alder reaction between anthrone and maleimide in generating an enantioselective product. The complete mechanism of the reaction has been figured out by performing the electronic structure calculations at the density functional theory (DFT) level. Our calculations suggest that the reaction commences with the abstraction of acidic proton of anthrone instigated by organocatalysts, (S)‐(‐)‐N‐(methyl‐2′‐pyridyl)‐2‐(α‐hydroxyethyl)benzimidazole[Pyr‐HEB]and (S)‐(‐)‐N‐(methyl‐1′‐benzotriazolyl)‐2‐(α‐hydroxyethyl)benzimidazole[Btz‐HEB]. Subsequently, N‐methyl maleimide interacts with the nucleophilic carbon of anthrone in a stepwise pathway, either from left‐hand side or right‐hand side, resulting in the generation of an enantioselective chiral product. A unique feature in the above reaction was thatPyr‐HEBandBtz‐HEBfavoured the formation of SS‐product and RR‐product, respectively, with high enantioselectivity. The turnaround of enantioselectivity upon changing the catalyst has been attributed to the noncovalent interaction and steric orientation in the molecule during the intermediate reaction steps. An estimated value of degree of enantioselectivity, for both the catalysts, was obtained in accordance with the experimental findings.

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Effect of substitution on dissociation kinetics of C₂H₅X, (X = F, Cl, Br and I): A theoretical study

Gulvi

Patel²,

Maliekal

et al. 2020

Molecular Physics

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Nitin R. Gulvi

Mechanistic and kinetic insights of reduction of indophenol by sodium borohydride: A theoretical study to explore the effect of solvent and counter ion

Theoretical kinetic analysis and molecular dynamic simulations for exploring the dissociation pathways of CF3OH

Exploring unimolecular dissociation kinetics of ethyl dibromide through electronic structure calculations

Origin and turnaround of enantioselectivity in a chiral organocatalysed Diels‐Alder reaction: A mechanistic study

Effect of substitution on dissociation kinetics of C₂H₅X, (X = F, Cl, Br and I): A theoretical study

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Nitin R. Gulvi

Mechanistic and kinetic insights of reduction of indophenol by sodium borohydride: A theoretical study to explore the effect of solvent and counter ion

Theoretical kinetic analysis and molecular dynamic simulations for exploring the dissociation pathways of CF3OH

Exploring unimolecular dissociation kinetics of ethyl dibromide through electronic structure calculations

Origin and turnaround of enantioselectivity in a chiral organocatalysed Diels‐Alder reaction: A mechanistic study

Effect of substitution on dissociation kinetics of C2H5X, (X = F, Cl, Br and I): A theoretical study

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Effect of substitution on dissociation kinetics of C₂H₅X, (X = F, Cl, Br and I): A theoretical study