立体中心
对称化
化学
路易斯酸
组合化学
蒂奥-
沮丧的刘易斯对
催化作用
立体化学
对映选择合成
烯丙基重排
路易斯酸催化
有机化学
作者
Hong-Qing Yao,Yueming Cai,Tian Xie,Ji-Yuan Lv,Shuai-Shuai Fang,Ming‐Hong Li,Ming Shan
出处
期刊:Angewandte Chemie
[Wiley]
日期:2025-06-17
卷期号:64 (34): e202509807-e202509807
被引量:13
标识
DOI:10.1002/anie.202509807
摘要
Chiral phosphorus(V) centers-particularly those bearing fully heteroatom-substituted frameworks-are key stereochemical motifs in pharmaceuticals, nucleic acid therapeutics, and functional materials. However, their stereoselective construction remains a long-standing challenge in synthetic chemistry. Here, we report a copper-catalyzed desymmetrization strategy enabled by rationally engineered PIM ligands that affords broad and modular access to structurally diverse P(V)-stereogenic compounds. By harnessing the tunable Lewis acidity and well-defined chiral environment of the catalyst-together with the distinct mechanistic features of chiral Lewis acid catalysis-this strategy overcomes the substrate scope limitations that have constrained traditional approaches. The method demonstrates broad functional group tolerance and delivers high levels of stereocontrol across seven distinct substitution patterns, including the efficient construction of chiral P═S motifs previously considered synthetically challenging. Importantly, the approach enables efficient late-stage derivatization of nucleosides and their analogs, thereby providing a general entry point to stereodefined P(V)-containing bioactive molecules. This work not only expands the utility of transition-metal Lewis acid catalysis in phosphorus chemistry, but also establishes a versatile framework for applications in drug discovery and nucleic acid-based therapeutics where precise stereochemical control is essential.
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