Choi Isaac, Trenerry Michael J, Lee Ken S, King Nicholas, Berry John F, Schomaker Jennifer M
Department of Chemistry, University of Wisconsin, Madison, Wisconsin, 53706, United States.
Present address, Department of Chemistry, Chungbuk National University, Cheongju-si, Chungcheongbuk-do, 28644, Republic of Korea.
ChemSusChem. 2022 Dec 7;15(23):e202201662. doi: 10.1002/cssc.202201662. Epub 2022 Nov 3.
Electrochemical C-H functionalizations are attractive transformations, as they are capable of avoiding the use of transition metals, pre-oxidized precursors, or suprastoichiometric amounts of terminal oxidants. Herein an electrochemically tunable method was developed that enabled the divergent formation of cyclic amines or imines by applying different reaction potentials. Detailed cyclic voltammetry analyses, coupled with chronopotentiometry experiments, were carried out to provide insight into the mechanism, while atom economy was assessed through a paired electrolysis. Selective C-H amidations and imidations were achieved to afford five- to seven-membered sulfonamide motifs that could be employed for late-stage modifications.
电化学C-H官能化反应是具有吸引力的转化反应,因为它们能够避免使用过渡金属、预氧化前体或超化学计量的终端氧化剂。本文开发了一种电化学可调方法,通过施加不同的反应电位能够实现环状胺或亚胺的发散式形成。进行了详细的循环伏安分析,并结合计时电位实验以深入了解反应机理,同时通过成对电解评估原子经济性。实现了选择性C-H酰胺化和亚胺化反应,得到了可用于后期修饰的五元至七元磺酰胺基序。
