Zhao Siling, Mankad Neal P
Department of Chemistry, University of Illinois at Chicago, 845 W. Taylor St., Chicago, IL, 60607, USA.
Angew Chem Int Ed Engl. 2018 May 14;57(20):5867-5870. doi: 10.1002/anie.201801814. Epub 2018 Apr 16.
We have developed a reductive carbonylation method by which unactivated alkyl iodides can be hydroxymethylated to provide one-carbon-extended alcohol products under Cu-catalyzed conditions. The method is tolerant of alkyl β-hydrogen atoms, is robust towards a wide variety of functional groups, and was applied to primary, secondary, and tertiary alkyl iodide substrates. Mechanistic experiments indicate that the transformation proceeds by atom-transfer carbonylation (ATC) of the alkyl iodide followed in tandem by two CuH-mediated reductions in rapid succession. This radical mechanism renders the Cu-catalyzed system complementary to precious-metal-catalyzed reductive carbonylation reactions.
我们开发了一种还原羰基化方法,通过该方法,未活化的烷基碘化物可以在铜催化的条件下进行羟甲基化反应,以提供碳链延长一个碳的醇类产物。该方法对烷基β-氢原子具有耐受性,对多种官能团都很稳定,并适用于伯、仲和叔烷基碘底物。机理实验表明,该转化过程是通过烷基碘的原子转移羰基化(ATC)反应,随后依次由两个铜氢介导的快速连续还原反应实现的。这种自由基机理使得铜催化体系与贵金属催化的还原羰基化反应互为补充。