羰基化
化学
催化作用
钯
组合化学
叠氮化物
胺气处理
基质(水族馆)
有机化学
一氧化碳
海洋学
地质学
作者
Zongyang Li,Shiyang Xu,Baoliang Huang,Chen‐Hui Yuan,Wenxu Chang,Bin Fu,Lei Jiao,Peng Wang,Zhenhua Zhang
标识
DOI:10.1021/acs.joc.9b01048
摘要
Pd-catalyzed reactions of azides with CO to access an isocynate intermediate have been developed extensively in recent years. However, the catalytic carbonylation of sensitive acyl azides has not been reported. Herein, we report a simple Pd-catalyzed carbonylation reaction of acyl azides with broad substrate scope, high efficiency, and simple operation under mild conditions, which provides facile access to acyl ureas. In addition, a mechanistic study was carried out by both experiment and DFT calculation. Control experiments and kinetic study revealed that the real active palladium species were Pd(0). The result of kinetic study suggested that palladium catalyst, azide, and CO were all involved in the turnover-limiting step except for amine. Further DFT study suggested that an unprecedented five-membered palladacycle intermediate was the key intermediate in the carbonylation reaction.
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