铜催化的1,2-硅基反立体选择性炔烃层合

Kelu Yan , Xiaoyu Wang , Jiangwei Wen , Qiuyun Li , Jianjing Yang , Xinru Tao , Shenghao Pan , Haosheng Liang , Xiu Wang
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引用次数: 0

摘要

高取代烯烃是重要的医药合成中间体,这类化合物的开发为功能化聚烯烃分子提供了多种潜在的烯烃单体。目前,通过经典的炔烃与硅金属之间的极性加成反应,制备了一系列的同步加成多取代烯烃。然而,炔的反选择性双官能化缺乏有效的途径。据我们所知,目前还没有一步引入反C-Si / C-Het键来构建相应的双官能烯烃的报道。在此,我们试图通过在不饱和C-C三键上添加硅基自由基和铜螯合物辅助乙烯基自由基功能化来探索烷的反选择性1,2-硅基层化。数十种抗硅层合烯烃衍生物的成功制备,包括那些涉及生物活性图案的衍生物,充分验证了该协议的一般性和普遍性。此外,多维机理研究实验和衍生化反应充分探索了这种转化的细节和应用前景。
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Copper-catalyzed anti-stereoselective 1,2-silylamination of alkynes†
Highly substituted alkenes are important synthetic intermediates in pharmaceuticals, and the development of such compounds provides a variety of potential alkene monomers for functional polyolefin molecules. At present, a series of syn addition multi-substituted alkenes have been prepared through classical polar addition reactions between alkynes and silylmetal species. However, there is no effective pathway for the anti-selective difunctionalization of alkynes. To the best of our knowledge, there are no reports on the introduction of anti C–Si/C–Het bonds in one step to construct the corresponding difunctional alkenes. Herein, we explore the anti-selective 1,2-silylamination of alkynes by combining the addition of silyl radicals to unsaturated C–C triple bonds with copper chelate-assisted functionalization of vinyl radicals. The successful preparation of a wide array of anti-silylaminated alkene derivatives, including those involving biologically active patterns, fully validates the generality and universality of this protocol. In addition, multi-dimensional mechanism research experiments and derivatization reactions have fully explored the details and application prospects of this transformation.
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