路易斯酸促进的镍催化双重 C-H 活化反应中的协同催化机制。
Mechanism of cooperative catalysis in a Lewis acid promoted nickel-catalyzed dual C-H activation reaction.
机构信息
Department of Chemistry, Indian Institute of Technology Bombay, Powai, Mumbai 400076, India.
出版信息
Org Lett. 2012 Sep 7;14(17):4584-7. doi: 10.1021/ol302047c. Epub 2012 Aug 16.
The mechanism of cooperativity offered by AlMe(3) in a Ni-catalyzed dehydrogenative cycloaddition between substituted formamides and an alkyne is investigated by using DFT(SMD(toluene)/M06/6-31G**) methods. The preferred pathway is identified to involve dual C-H activation, with first a higher barrier formyl C(sp(2))-H oxidative insertion followed by benzylic methyl C(sp(3))-H activation. The cooperativity is traced to be of kinetic origin as evidenced by stabilized transition states when AlMe(3) is bound to the formyl group, particularly in the oxidative insertion step.
使用 DFT(SMD(toluene)/M06/6-31G**)方法研究了 AlMe(3) 在 Ni 催化的取代甲酰胺和炔烃之间脱氢环加成反应中提供的协同作用机制。确定了首选途径涉及双重 C-H 活化,首先是较高势垒的甲酰基 C(sp(2))-H 氧化插入,然后是苄基甲基 C(sp(3))-H 活化。协同作用可追溯到动力学起源,这是由于当 AlMe(3)与甲酰基结合时,过渡态得到稳定,特别是在氧化插入步骤中。
Zotero 插件