Department of Chemistry and Molecular-Level Interface Research Center, Korea Advanced Institute of Science and Technology (KAIST), Daejeon 305-701, Republic of Korea.
J Am Chem Soc. 2012 Feb 8;134(5):2528-31. doi: 10.1021/ja211389g. Epub 2012 Jan 30.
The cyanation of aromatic boronic acids, boronate esters, and borate salts was developed under copper-mediated oxidative conditions using ammonium iodide and DMF as the source of nitrogen and carbon atom of the cyano unit, respectively. The procedure was successfully extended to the cyanation of electron-rich benzenes, and regioselective introduction of a cyano group at the arene C-H bonds was also achieved. The observation that the reaction proceeds via a two-step process, initial iodination and then cyanation, led us to propose that ammonium iodide plays a dual role to provide iodide and nitrogen atom of the cyano moiety.
在铜介导的氧化条件下,发展了芳基硼酸、硼酸酯和硼酸盐的氰化反应,分别使用碘化铵和 DMF 作为氰基单元的氮原子和碳原子的来源。该方法成功扩展到富电子苯的氰化反应中,并且可以实现芳环 C-H 键的区域选择性氰基化。观察到反应通过两步过程进行,首先是碘化,然后是氰化,这使我们提出碘化铵起到双重作用,既能提供碘化物,又能提供氰基部分的氮原子。