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利用环烯烃通过(5+2)环加成一步合成七元稠环的计算预测

Computational Prediction of One-Step Synthesis of Seven-membered Fused Rings by (5+2) Cycloaddition Utilising Cycloalkenes.

作者信息

Zhou Chen-Chen, Ke Xiao-Na, Xu Xiu-Fang

机构信息

Department of Chemistry, Key Laboratory of Advanced Energy Materials Chemistry (Ministry of Education), Nankai University, Tianjin, 300071, P. R. China.

出版信息

Sci Rep. 2015 Jul 22;5:12272. doi: 10.1038/srep12272.

Abstract

The (5+2) cycloaddition reaction utilising cycloalkenes is rare, although it is one of the most efficient methods of constructing seven-membered fused rings because of its high atom- and step-economy. In this study, we used quantum mechanical calculations to predict the plausibility of using the Rh-catalysed intermolecular (5+2) cycloaddition of 3-acyloxy-1,4-enynes and cycloalkenes to produce fused seven-membered carbocycles. The calculation results suggest a convenient, highly efficient and energetically practical approach. Strained cycloalkenes, such as cyclopropene, have been predicted to be active, and the desired bicyclic product should be favoured, accompanied by the formation of byproducts from rearrangement reactions. The energy barriers of the alkene insertion step were analysed by the distortion/interaction model to disclose the origins of the different reactivities of cycloalkenes with different ring sizes.

摘要

利用环烯烃的(5+2)环加成反应很少见,尽管由于其高原子经济性和步骤经济性,它是构建七元稠环最有效的方法之一。在本研究中,我们使用量子力学计算来预测使用铑催化的3-酰氧基-1,4-烯炔与环烯烃的分子间(5+2)环加成反应来制备稠合七元碳环的合理性。计算结果表明了一种简便、高效且能量上可行的方法。据预测,诸如环丙烯之类的张力环烯烃具有活性,并且所需的双环产物应该受到青睐,同时会伴随重排反应形成副产物。通过畸变/相互作用模型分析了烯烃插入步骤的能垒,以揭示不同环大小的环烯烃具有不同反应活性的根源。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8a17/4510518/ae19b1fab4c9/srep12272-f1.jpg

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