通过维蒂希烯烃化反应研究（杂）苄基烯烃的反应性和稳定性

Reactivity and Stability of (Hetero)Benzylic Alkenes via the Wittig Olefination Reaction.

作者信息

Khan Ajmir, Sarwar Mohammed G, Ali Sher

机构信息

School of Packaging, Michigan State University, 448 Wilson Road, East Lansing, MI 48824, USA.

Scops Coating Technologies, 4942 Dawn Ave, East Lansing, MI 48823, USA.

出版信息

Molecules. 2024 Jan 19;29(2):501. doi: 10.3390/molecules29020501.

DOI:10.3390/molecules29020501

PMID:38276579

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10819551/

Abstract

Wittig olefination at hetero-benzylic positions for electron-deficient and electron-rich heterocycles has been studied. The electronic effects of some commonly used protective groups associated with the -heterocycles were also investigated for alkenes obtained in the context of the widely employed Wittig olefination reaction. It was observed that hetero-benzylic positions of the pyridine, thiophene and furan derivatives were stable after Wittig olefination. Similarly, electron-withdrawing groups (EWGs) attached to -heterocycles (indole and pyrrole derivatives) directly enhanced the stability of the benzylic position during and after Wittig olefination, resulting in the formation of stable alkenes. Conversely, electron-donating group (EDG)-associated -heterocycles boosted the reactivity of benzylic alkene, leading to lower yields or decomposition of the olefination products.

摘要

已对缺电子和富电子杂环在杂苄基位置的维蒂希烯烃化反应进行了研究。还研究了一些与杂环相关的常用保护基对在广泛应用的维蒂希烯烃化反应中得到的烯烃的电子效应。观察到吡啶、噻吩和呋喃衍生物的杂苄基位置在维蒂希烯烃化反应后是稳定的。同样，直接连接到杂环（吲哚和吡咯衍生物）上的吸电子基团（EWG）在维蒂希烯烃化反应期间和之后直接增强了苄基位置的稳定性，从而形成稳定的烯烃。相反，与供电子基团（EDG）相关的杂环提高了苄基烯烃的反应性，导致烯烃化产物的产率降低或分解。

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通过维蒂希烯烃化反应研究（杂）苄基烯烃的反应性和稳定性

Reactivity and Stability of (Hetero)Benzylic Alkenes via the Wittig Olefination Reaction.

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