Jiang Yonggang, Liu Dongxiang, Rotella Madeline E, Deng Guogang, Liu Zhengfen, Chen Wen, Zhang Hongbin, Kozlowski Marisa C, Walsh Patrick J, Yang Xiaodong
Key Laboratory of Medicinal Chemistry for Natural Resource, Ministry of Education; Yunnan Provincial Center for Research & Development of Natural Products; School of Pharmacy, Yunnan University, Kunming 650500, P. R. China.
Roy and Diana Vagelos Laboratories, Penn/Merck Laboratory for High-Throughput Experimentation, Department of Chemistry, University of Pennsylvania, 231 South 34th Street, Philadelphia, Pennsylvania 19104, United States.
J Am Chem Soc. 2023 Jul 26;145(29):16045-16057. doi: 10.1021/jacs.3c04376. Epub 2023 Jul 13.
Hydrogen atom transfer (HAT) processes are among the most useful approaches for the selective construction of C(sp)-C(sp) bonds. 1,5-HAT with heteroatom-centered radicals (O, N) have been well established and are favored relative to other 1,-HAT processes. In comparison, net 1,2-HAT processes have been observed infrequently. Herein, the first amidyl radicalls are reported that preferentially undergo a net 1,2-HAT over 1,5-HAT. Beginning with single electron transfer from 2-azaallyl anions to -alkyl -aryloxy amides, the latter generate amidyl radicals. The amidyl radical undergoes a net-1,2-HAT to generate a C-centered radical that participates in an intermolecular radical-radical coupling with the 2-azaallyl radical to generate 1,2-diamine derivatives. Mechanistic and EPR experiments point to radical intermediates. Density functional theory calculations provide support for a base-assisted, stepwise-1,2-HAT process. It is proposed that the generation of amidyl radicals under basic conditions can be greatly expanded to access α-amino C-centered radicals that will serve as valuable synthetic intermediates.
氢原子转移(HAT)过程是选择性构建C(sp)-C(sp)键最有用的方法之一。以杂原子为中心的自由基(O、N)进行的1,5-HAT已得到充分证实,并且相对于其他1,5-HAT过程更受青睐。相比之下,净1,2-HAT过程很少被观察到。在此,报道了首例优先进行净1,2-HAT而非1,5-HAT的酰胺基自由基。从2-氮杂烯丙基阴离子向α-烷基-α-芳氧基酰胺进行单电子转移开始,后者生成酰胺基自由基。酰胺基自由基进行净1,2-HAT生成一个碳中心自由基,该自由基与2-氮杂烯丙基自由基参与分子间自由基-自由基偶联反应,生成1,2-二胺衍生物。机理和电子顺磁共振实验表明存在自由基中间体。密度泛函理论计算为碱辅助的逐步1,2-HAT过程提供了支持。有人提出,在碱性条件下酰胺基自由基的生成可以大大扩展,以获得α-氨基碳中心自由基,这些自由基将作为有价值的合成中间体。
