Liu Shupeng, Xu Tianyi, Liu Yuting, Wang Youliang
School of Chemistry, Xi'an Key Laboratory of Sustainable Energy Materials Chemistry, Xi'an Jiaotong University (XJTU), Xi'an, 710049, P. R. China.
Angew Chem Int Ed Engl. 2024 Aug 26;63(35):e202407841. doi: 10.1002/anie.202407841. Epub 2024 Jul 23.
Dearomative cycloadditions are powerful synthetic transformations utilizing aromatic compounds for cycloaddition reactions. They have been extensively applied to the synthesis of biologically relevant compounds not only because of the complexity generated from simplicity but also the atom- and step-economy. For the most studied yet challenging benzene ring systems, ortho- and para-cycloadditions have been realized both photochemically and thermally, while the meta-cycloadditions are still limited to the photochemical processes tracing back to the 1960s. Herein, we for the first time realized the thermal cycloadditions of benzene rings with alkenes in a meta fashion via Wheland intermediates. A broad spectrum of readily available C(sp)-rich aniline-tethered enynes were transformed into C(sp)-rich 3D complex polycyclic architectures simply by stirring in TFA. Moreover, the reaction could be performed in gram-scales and the products could be diversely elaborated.
脱芳构化环加成反应是利用芳香族化合物进行环加成反应的强大合成转化方法。它们不仅因其能从简单结构生成复杂结构,还因其原子经济性和步骤经济性,而被广泛应用于生物相关化合物的合成。对于研究最多但最具挑战性的苯环体系,邻位和对位环加成反应已通过光化学和热化学方法实现,而间位环加成反应仍局限于可追溯到20世纪60年代的光化学过程。在此,我们首次通过Wheland中间体以间位方式实现了苯环与烯烃的热环加成反应。只需在三氟乙酸中搅拌,一系列易于获得的富含C(sp)的苯胺连接的烯炔就能转化为富含C(sp)的三维复杂多环结构。此外,该反应可以进行克级规模的操作,并且产物可以进行多样化的衍生。
