钴催化的氢原子转移诱导可耐受富电子和缺电子中间烯烃的双环化反应。
Cobalt-Catalyzed Hydrogen-Atom Transfer Induces Bicyclizations that Tolerate Electron-Rich and Electron-Deficient Intermediate Alkenes.
机构信息
Department of Chemistry, University of California, Irvine, CA, 92697-2025, USA.
出版信息
Angew Chem Int Ed Engl. 2020 Apr 6;59(15):6115-6121. doi: 10.1002/anie.202000252. Epub 2020 Feb 25.
Abstract
A novel Co -catalyzed polyene cyclization was developed that is uniquely effective when performed in hexafluoroisopropanol as the solvent. The process is presumably initiated by metal-catalyzed hydrogen-atom transfer (MHAT) to 1,1-disubstituted or monosubstituted alkenes, and the reaction is remarkable for its tolerance of internal alkenes bearing either electron-rich methyl or electron-deficient nitrile substituents. Electron-rich aromatic terminators are required in both cases. Terpenoid scaffolds with different substitution patterns are obtained with excellent diastereoselectivities, and the bioactive C20-oxidized abietane diterpenoid carnosaldehyde was made to showcase the utility of the nitrile-bearing products. Also provided are the results of several mechanistic experiments that suggest the process features an MHAT-induced radical bicyclization with late-stage oxidation to regenerate the aromatic terminator.
摘要
开发了一种新型的协同多烯环化反应,当在六氟异丙醇溶剂中进行时,该反应具有独特的效果。该过程推测是通过金属催化的氢原子转移(MHAT)引发的,反应对具有富电子甲基或缺电子腈取代基的内部烯烃具有很好的耐受性。在这两种情况下,都需要富电子的芳族封端剂。具有不同取代模式的萜类支架可以获得极好的非对映选择性,并且具有生物活性的 C20-氧化的扁柏二萜醇醛被合成出来,以展示含有腈基的产物的实用性。还提供了一些机制实验的结果,这些结果表明该过程具有 MHAT 诱导的自由基双环化反应,随后进行后期氧化以再生芳族封端剂。
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