通过对映选择性碳钯化和1,4-钯迁移级联过程实现远程碳氢键活化

Remote C─H Bond Activation via Enantioselective Carbopalladation and 1,4-Pd Migration Cascade Process.

作者信息

Xu Bing, Ji Danting, Zhang Zhan-Ming, Zhang Junliang

机构信息

Department of Chemistry, Fudan University, 2005 Songhu Road, Shanghai, 200438, China.

Zhuhai Fudan Innovation Institute, Hengqing District, Zhuhai, 519000, China.

出版信息

Adv Sci (Weinh). 2024 Oct;11(40):e2406443. doi: 10.1002/advs.202406443. Epub 2024 Sep 3.

DOI:10.1002/advs.202406443

PMID:39225313

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11516156/

Abstract

Carbopalladation-initiated cascade reaction involving 1,4-Pd migration is a straightforward and powerful approach to activate remote C─H bond, forging versatile fused polycyclic compounds containing fluorene fragment which are highly valuable synthetic targets. However, its asymmetric variants pose considerable challenges and have not been explored. Here the first asymmetric palladium-catalyzed tandem carbopalladation is reported, 1,4-Pd migration reaction of ortho-iodophenol-derived allyl ether under mild conditions, allowing the transformation of a wide range of substrates in good to excellent enantioselectivities, and providing a facile and straight forward access to tetracyclic dihydroindeno[1,2,3-de]chromene bearing a chiral fluorene skeleton. A good functional group tolerance, high stereoselectivity, as well as the good chiroptical properties (high fluorescence quantum yields, circular dichroism) of the products make this approach highly attractive. Moreover, density functional theory (DFT) calculations indicate that the protonation of five-membered palladacycle intermediate is more favorable rather than its direct reductive elimination process.

摘要

涉及1,4-钯迁移的碳钯化引发的级联反应是一种直接且强大的方法，用于活化远程碳氢键，构建含有芴片段的多种稠合多环化合物，这些化合物是极具价值的合成目标。然而，其不对称变体面临相当大的挑战且尚未得到探索。本文报道了首例不对称钯催化的串联碳钯化反应，即邻碘苯酚衍生的烯丙基醚在温和条件下的1,4-钯迁移反应，该反应能以良好至优异的对映选择性转化多种底物，并为构建具有手性芴骨架的四环二氢茚并[1,2,3-de]色烯提供了一种简便直接的方法。良好的官能团耐受性、高立体选择性以及产物良好的手性光学性质（高荧光量子产率、圆二色性）使该方法极具吸引力。此外，密度泛函理论（DFT）计算表明，五元钯环中间体的质子化比其直接还原消除过程更有利。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/400b/11516156/6d4029490291/ADVS-11-2406443-g007.jpg

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通过对映选择性碳钯化和1,4-钯迁移级联过程实现远程碳氢键活化

Remote C─H Bond Activation via Enantioselective Carbopalladation and 1,4-Pd Migration Cascade Process.

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