铜催化的通过光诱导配体到金属电荷转移的 C(sp)-H 键烷基化反应。
Copper Catalyzed C(sp)-H Bond Alkylation via Photoinduced Ligand-to-Metal Charge Transfer.
机构信息
Department of Chemistry, Columbia University, New York, New York 10027, United States.
出版信息
J Am Chem Soc. 2021 Feb 24;143(7):2729-2735. doi: 10.1021/jacs.1c00687. Epub 2021 Feb 12.
Abstract
Utilizing catalytic CuCl we report the functionalization of numerous feedstock chemicals via the coupling of unactivated C(sp)-H bonds with electron-deficient olefins. The active cuprate catalyst undergoes Ligand-to-Metal Charge Transfer (LMCT) to enable the generation of a chlorine radical which acts as a powerful hydrogen atom transfer reagent capable of abstracting strong electron-rich C(sp)-H bonds. Of note is that the chlorocuprate catalyst is an exceedingly mild oxidant (0.5 V vs SCE) and that a proposed protodemetalation mechanism offers a broad scope of electron-deficient olefins, offering high diastereoselectivity in the case of endocyclic alkenes. The coupling of chlorine radical generation with Cu reduction through LMCT enables the generation of a highly active HAT reagent in an operationally simple and atom economical protocol.
摘要
利用催化的 CuCl,我们通过未活化的 C(sp)-H 键与缺电子烯烃的偶联,报告了许多原料化学品的功能化。活性铜酸盐催化剂经历配体到金属电荷转移(LMCT),从而产生氯自由基,该自由基充当强大的氢原子转移试剂,能够提取强富电子的 C(sp)-H 键。值得注意的是,氯代铜催化剂是一种非常温和的氧化剂(相对于 SCE 为 0.5 V),并且提出的脱金属化机理提供了广泛的缺电子烯烃范围,在中环烯烃的情况下提供了高的非对映选择性。通过 LMCT 将氯自由基生成与 Cu 还原相结合,在操作简单且原子经济的方案中生成了高活性的 HAT 试剂。
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