烯烃和重氮结构对第一代 Grubbs 催化剂催化的异功能偶氮复分解反应的影响

IF 2.5 3区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR

Organometallics Pub Date : 2024-09-05 DOI:10.1021/acs.organomet.4c00264

Magdalena Jawiczuk, Bartosz Trzaskowski

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引用次数: 0

摘要

在这项工作中，我们通过计算研究了底物结构的变化对第一代 Grubbs 催化剂催化的偶氮化合物与烯烃之间的杂官能团交叉金属化反应过程的影响。据预测，对称的大块重氮和立体不拥挤的烯烃的反应速率最高。所研究的其他偶氮化合物在催化剂起始阶段的关键步骤中具有更高的能量障碍，而较大的烯烃在催化循环的第二部分具有高能量障碍。我们的分析表明，Grubbs 类催化剂只能有效地用于少数烯烃-偶氮化合物组合的异官能团偶氮复分解反应，如 1,2-二苯基二氮烯和乙烯生成 N-苯基甲亚胺。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Impact of the Olefin and Diazene Structure on the Heterofunctional Azo Metathesis Catalyzed by the First-Generation Grubbs Catalyst

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Impact of the Olefin and Diazene Structure on the Heterofunctional Azo Metathesis Catalyzed by the First-Generation Grubbs Catalyst

In this work, we computationally studied the influence of the change in the substrate structure on the course of the heterofunctional cross-metathesis reaction between azo compounds and olefins catalyzed by the first-generation Grubbs catalyst. The highest reaction rates were predicted for symmetric, bulky diazenes and sterically uncrowded olefins. Other studied azo compounds have much higher energy barriers in the crucial steps in the catalyst initiation phase, while larger olefins are characterized by high energy barriers in the second part of the catalytic cycle. Our analysis suggests that Grubbs-like catalysts can be efficiently used in heterofunctional azo metathesis only for a limited number of olefin-azo compound combinations, such as 1,2-diphenyldiazene and ethylene to produce N-phenylmethanimine.

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来源期刊

Organometallics 化学-无机化学与核化学

CiteScore

5.60

自引率

7.10%

发文量

382

审稿时长

1.7 months

期刊介绍： Organometallics is the flagship journal of organometallic chemistry and records progress in one of the most active fields of science, bridging organic and inorganic chemistry. The journal publishes Articles, Communications, Reviews, and Tutorials (instructional overviews) that depict research on the synthesis, structure, bonding, chemical reactivity, and reaction mechanisms for a variety of applications, including catalyst design and catalytic processes; main-group, transition-metal, and lanthanide and actinide metal chemistry; synthetic aspects of polymer science and materials science; and bioorganometallic chemistry.