New Insights into the (A)Synchronicity of Diels–Alder Reactions: A Theoretical Study Based on the Reaction Force Analysis and Atomic Resolution of Energy Derivatives

Isamura, Bienfait Kabuyaya; Lobb, Kevin A.

doi:10.3390/molecules27051546

Cited by 4 publications

(1 citation statement)

References 73 publications

(90 reference statements)

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“…On the potential energy surface (PES), a stepwise pathway would be characterized by two local maxima (transition structures) connected by a local minimum (intermediate) along the reaction coordinate (Figure , top PES). However, analysis solely based on electronic energy (i.e., the PES) can be misleading . For various pericyclic reactions, flat regions may exist along the reaction coordinate PES (Figure , middle PES).…”

Section: Introductionmentioning

confidence: 99%

Molecular Dynamics Investigations of Dienolate [4 + 2] Reactions

Chen,

Cusumano,

Flesch

et al. 2024

J. Am. Chem. Soc.

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We report quantum mechanics calculations and quasiclassical trajectory simulations of [4 + 2] reactions using three common dienolate substrates: siloxy dienes, Li dienolates, and conjugated Pd enolates. Asynchronous transition structures and unequal bond formation were invariably found, with average time gaps of developing bonds ranging from 26.5 to >251.0 fs. The results display a spectrum of dynamically concerted and stepwise [4 + 2] reactions, offering insights into the origin of the stereochemical outcomes of such reactions.

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Section: Introductionmentioning

confidence: 99%

Molecular Dynamics Investigations of Dienolate [4 + 2] Reactions

Chen,

Cusumano,

Flesch

et al. 2024

J. Am. Chem. Soc.

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A multiscale ONIOM study of the buckminsterfullerene (C60) Diels–Alder reaction: from model design to reaction path analysis

Isamura

Lobb

2022

J Mol Model

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The transition state region in nonsynchronous concerted reactions

Gómez

Rojas‐Valencia

Toro-Labbé

et al. 2023

The Journal of Chemical Physics

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The critical and vanishing points of the reaction force F(ξi)=-dV(ξi)/dξi yield five important coordinates (ξR, ξR*, ξTS, ξP*, ξP) along the intrinsic reaction coordinate (IRC) for a given concerted reaction or reaction step. These points partition the IRC into three well defined regions: reactants (ξR →ξR*), transition state (ξR* →ξP*), and products (ξP* →ξP) with traditional roles of mostly structural changes associated to the reactants and products regions and mostly electronic activity associated to the TS region. Following the evolution of chemical bonding along the IRC using formal descriptors of synchronicity, Reaction Electron Flux, Wiberg Bond Orders (WBO) and their derivatives (or, more precisely, the intensity of the electron activity) unambiguously indicates that for non--synchronous reactions, electron activity transcends the TS region and takes place well into the reactants and products regions. Under these circumstances, an extension of the TS region toward the reactants and products regions may occur.

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New Insights into the (A)Synchronicity of Diels–Alder Reactions: A Theoretical Study Based on the Reaction Force Analysis and Atomic Resolution of Energy Derivatives

Cited by 4 publications

References 73 publications

Molecular Dynamics Investigations of Dienolate [4 + 2] Reactions

Molecular Dynamics Investigations of Dienolate [4 + 2] Reactions

A multiscale ONIOM study of the buckminsterfullerene (C60) Diels–Alder reaction: from model design to reaction path analysis

The transition state region in nonsynchronous concerted reactions

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