A vector‐based representation of the chemical bond for predicting competitive and noncompetitive torquoselectivity of thermal ring‐opening reactions

Azizi, Alireza; Momen, Roya; Morales-Bayuelo, Alejandro; Xu, Ting; Kirk, Steven R.; Jenkins, Samantha

doi:10.1002/qua.25707

Cited by 8 publications

(11 citation statements)

References 41 publications

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“…This degenerate and non-degenerate behavior in the metallicity ξ(r b ) suggests that in fact Reaction 1is a competitive reaction and Reaction 2 , Reaction 3 , and Reaction 4 are non-competitive reactions on the chemical basis of metallicity being a key factor in understanding the electronic reorganization of the ring-opening BCP along the reaction pathways. In addition, based on the transition state theory and previous researches outcomes, we obtain that for all four reactions, the transition state and maximum metallicity ξ(r b ) relevant to the ring-opening C2-C3/C2-C3 BCP s do not simultaneously occur 48 . Subsequently, the degeneracy results from other QTAIM measures such as ellipticity ε and the total local energy density H In the following, investigation the plots of variation of stress tensor polarizability P σ with the IRC demonstrate an apparent differentiation among all four reactions.…”

Section: Resultsmentioning

confidence: 66%

Discerning Torquoselectivity of Non-Competitive and Competitive Ring-Opening Reactions Using QTAIM and Stress Tensor

Momen

Azizi

Morales‐Bayuelo

et al. 2021

Preprint

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Within this study, four thermal ring-opening reactions, Reactions (1-4), were selected in order to investigate the phenomenon of torquoselectivity as well as predicting non-competitive or competitive reactions in QTAIM and stress tensor frameworks rather than using conventional methods. The theoretical analysis for these reactions exhibits differently for non-competitive and competitive reactions as well as for the conrotatory preferences either TSOC or TSIC directions by presenting degeneracy or non-degeneracy in their results. The concordant results of stress tensor and QTAIM scalar and vectors with experimental results provide a better understanding of all reactions mechanism. Examination the (rb), ε, H(rb), ℙσ, 3, BPL, and H indicate that Reaction 1 is a competitive and Reactions (2-4) are non-competitive reactions with TSOC, TSOC, and TSIC preference directions respectively.

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Section: Resultsmentioning

confidence: 66%

Discerning Torquoselectivity of Non-Competitive and Competitive Ring-Opening Reactions Using QTAIM and Stress Tensor

Momen

Azizi

Morales‐Bayuelo

et al. 2021

Preprint

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“…In recent years, there have been several developmental studies on torquoselectivity [5,6] that are characterized by either the preference of the transition state outward conrotatory (TSOC) or the transition state inward conrotatory (TSIC) reaction pathway of the substituents in the electrocyclic ring-opening reactions [7,8]. Cyclobutenes undergo thermally allowed conrotatory electrocyclic ring opening to form Z-dienes or E-dienes by inward or outward twisting, respectively.…”

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confidence: 99%

“…Ongoing investigations have revealed new insights into how to address the bottleneck in electrocyclic reactions utilizing frameworks from the electron localization function [17,20], electronic structure principles [21] to stress tensor and QTAIM [5,22]. Even though just QTAIM and stress tensor frameworks permitted to quantify and identify the reaction coordinate through directional parameters, albeit the later was bounded to use with reactions with fundamentally similar nuclear skeletons.…”

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confidence: 99%

“…Recently a pair of competitive reactions without the use of orbital information or symmetry demonstrated torquoselectivity along the reaction pathways successfully but this research was limited to sets of TSOC/TSIC competitive reactions with very similar nuclear skeletons and it was required to be performed on all bond critical points (BCPs) in each structure [23]. In addition, within our previous investigation, we selected a series of five reactions with contrasting nuclear skeletons and activation energies to consider non-competitive/competitive reactions as well as discover a method to distinguish the torquoselectivity preferences that accommodate the directional character of the reaction pathways without the use of orbital information or symmetry [5].…”

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confidence: 99%

“…The goal of this current investigation is to expand our previous research [5] for a new series of four thermal non-competitive/competitive electrocyclic cyclobutenes ring-opening reactions to build a systematic study to understand the nature of the chemical bond, electronic reorganization, and stereochemistry prediction in order to recognize the validity of the QTAIM and stress tensor scalar and vector measures.…”

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confidence: 99%

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Discerning torquoselectivity in a series of cyclobutene ring‐opening reactions using quantum theory of atoms in molecules and stress tensor

Momen

Azizi

Morales-Bayuelo

et al. 2021

Int J of Quantum Chemistry

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This study aims to investigate the phenomenon of torquoselectivity through four thermal cyclobutenes ring-opening reactions including 1-chlorocyclobut-1-ene (Reaction 1), 3-chloro-4-methylcyclobut-1-ene (Reaction 2), 3-methoxy-4-methylcyclobut-1-ene (Reaction 3), and finally 3-chloro-4-methoxycyclobut-1-ene (Reaction 4). Despite the limitation of conventional methods in which just considers activation energies within transition state theory, this research focuses on the nature of the chemical bond, electronic reorganization, and predicting either non-competitive or competitive reactions within quantum theory of atoms in molecules (QTAIM) and stress tensor frameworks. Various theoretical analyses for these reactions such as metallicity ξ(r b ), ellipticity ε, total local energy density H(r b ), stress tensor polarizability P σ , stress tensor eigenvalue λ 3σ , bond-path length, and path lengths H display differently for noncompetitive and competitive reactions as well as for the conrotatory preferences either it is the transition state outward conrotatory (TSOC) or transition state inward conrotatory (TSIC) directions by presenting degeneracy or non-degeneracy in their results.Results illustrate that the preference of TSOC or TSIC of these thermal ring-opening reactions could obtain from path lengths H of the ring-opening bonds, where the longer one apparently predicts the preference. In addition, examinations indicate that Reaction 1 is competitive and Reactions (2-4) are non-competitive reactions with TSOC, TSOC, and TSIC preference directions respectively. The concordant results of stress tensor and QTAIM scalar and vectors with experimental results provide a better understanding of all reactions mechanism.

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Beyond energetic and scalar measures: Next generation quantum theory of atoms in molecules

Kirk

Jenkins

2022

WIREs Comput Mol Sci

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Next generation quantum theory of atoms in molecules (NG-QTAIM) is currently the only vector-based quantum chemical theory as all other quantum chemical theories are scalar-based. NG-QTAIM can, for instance, be used to distinguish enantiomers, isotopomers undergoing normal modes of vibration, predict ring-opening reaction products, ground and excited states at a conical intersection and predict reaction pathways of permutation-inversion isomers. As a consequence, NG-QTAIM can uniquely be used to investigate iso-energetic phenomena where the reliance on differences in geometric measures is removed. NG-QTAIM has already been used to determine molecular chirality consistent with the Cahn-Ingold-Prelog (CIP) classifications for chiral molecules in addition to the reactant and product of a chiral S N 2 reaction. The CIP classifications however, cannot quantify the chirality of intermediate reaction structures due to their formally achiral nature. We identify the presence of chirality by quantifying a helical response of the bond electrons consistent with photoexcitation circular dichroism experiments that utilize the helical motion of the bound electrons for chiral discrimination. NG-QTAIM can also be used to provide nongeometric based reasoning as to why there are stronger hydrogenbonds in cyclic water clusters compared with compact water clusters. Additionally, the effects of electric-fields and laser irradiation in conditions not amenable to explanation using scalar measures are quantified. The QuantVec software is introduced, which coordinates external programs and efficiently computes the NG-QTAIM analyses using the wavefunctions from a wide range of ground and excited states computed with DFT, coupled-cluster, complete active space SCF, configuration interaction, or quantum dynamics methods.

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A vector‐based representation of the chemical bond for predicting competitive and noncompetitive torquoselectivity of thermal ring‐opening reactions

Cited by 8 publications

References 41 publications

Discerning Torquoselectivity of Non-Competitive and Competitive Ring-Opening Reactions Using QTAIM and Stress Tensor

Discerning Torquoselectivity of Non-Competitive and Competitive Ring-Opening Reactions Using QTAIM and Stress Tensor

Discerning torquoselectivity in a series of cyclobutene ring‐opening reactions using quantum theory of atoms in molecules and stress tensor

Beyond energetic and scalar measures: Next generation quantum theory of atoms in molecules

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