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3,3,3-三氯-1-硝基-1-丙烯与选定的腈氧化物的[3+2]环加成反应的参与,根据实验和 MEDT 量子化学研究。

The Participation of 3,3,3-Trichloro-1-nitroprop-1-ene in the [3 + 2] Cycloaddition Reaction with Selected Nitrile -Oxides in the Light of the Experimental and MEDT Quantum Chemical Study.

机构信息

Department of Organic Chemistry and Technology, Cracow University of Technology, Warszawska 24, 31-155 Cracow, Poland.

Department of Organic Chemistry, University of Valencia, Dr. Moliner 50, Burjassot, 46100 Valencia, Spain.

出版信息

Molecules. 2021 Nov 9;26(22):6774. doi: 10.3390/molecules26226774.

DOI:10.3390/molecules26226774
PMID:34833866
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8622200/
Abstract

The regioselective [3 + 2] cycloaddition (32CA) reactions of a series of aryl-substituted nitrile -oxides (NOs) with trichloronitropropene (TNP) have been both experimentally and theoretically studied within the Molecular Electron Density Theory (MEDT). Zwitterionic NOs behave as moderate nucleophiles while TNP acts as a very strong electrophile in these polar 32CA reactions of forward electron density flux, which present moderate activation Gibbs free energies of 22.8-25.6 kcal·mol and an exergonic character of 28.4 kcal·mol that makes them irreversible and kinetically controlled. The most favorable reaction is that involving the most nucleophilic MeO-substituted NO. Despite Parr functions correctly predicting the experimental regioselectivity with the most favorable O-CCCl interaction, these reactions follow a two-stage one-step mechanism in which formation of the O-C(CCl) bond takes place once the C-C(NO) bond is already formed. The present MEDT concludes that the reactivity differences in the series of NOs come from their different nucleophilic activation and polar character of the reactions, rather than any mechanistic feature.

摘要

在分子电子密度理论(MEDT)中,我们对一系列芳基取代的腈氧化物(NOs)与三氯硝基丙烯(TNP)的区域选择性[3+2]环加成(32CA)反应进行了实验和理论研究。在这些正向电子密度流的极性 32CA 反应中,两性离子 NOs 表现为中等亲核试剂,而 TNP 则表现为非常强的亲电试剂,这些反应具有中等的活化吉布斯自由能(22.8-25.6 kcal·mol)和 28.4 kcal·mol 的放热性质,这使得它们是不可逆的,且受动力学控制。最有利的反应是涉及最亲核的 MeO 取代的 NO。尽管 Parr 函数正确地预测了实验区域选择性,即最有利的 O-CCCl 相互作用,但这些反应遵循两步一步的机制,其中一旦 C-C(NO)键已经形成,就会形成 O-C(CCl)键。本 MEDT 得出的结论是,NO 系列中的反应活性差异来自于它们不同的亲核活化和反应的极性性质,而不是任何机制特征。

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