对映选择合成
化学
立体中心
组合化学
恶嗪啶
立体化学
环己烯
模块化设计
环己烷类
基质(水族馆)
形式综合
立体异构
戒指(化学)
羟基化
工具箱
对映体
羟醛反应
环戊烷类
手性(物理)
作者
Xuchao Wang,Jing Xue,Wen-Jing Yu,Siming Zheng,Mengyang Shen,Zhen Zhao,Ni Shao-Fei,Xiaohui Ji,Zhenchao Wang,Yiyun Fang,Wei Huang,Rong Zi-qiang
摘要
Chiral, multi-substituted six-membered carbocycles with high sp3 character are privileged frameworks in pharmaceuticals, agrochemicals, and natural products, owing to their enhanced binding affinity, metabolic stability, and three-dimensional molecular recognition. However, the enantioselective construction of such densely functionalized all-carbon rings bearing multiple C(sp3) stereocenters remains a major synthetic challenge. Here, we report a cobalt-catalyzed asymmetric remote hydroalkylation of cyclohexene derivatives, enabling modular and enantioselective access to multisubstituted, chiral six-membered carbocycles. This transformation proceeds under mild conditions with excellent regio- and enantioselectivity, allowing for precise distal stereocontrol across a broad substrate scope. The resulting products feature high Fsp3 content and are readily amenable to diversification via radical C-C coupling, photoredox transformations, or Curtius rearrangement. This work provides a powerful strategy for the streamlined synthesis of sp3-rich, stereochemically complex carbocycles, expanding the synthetic toolbox for 3D molecular architectures in drug and materials discovery.
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