Boreen Michael A, Ye Christopher Z, Kerridge Andrew, McCabe Karl N, Skeel Brighton A, Maron Laurent, Arnold John
Department of Chemistry, University of California, Berkeley, California 94720, United States.
Chemical Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, California 94720, United States.
Inorg Chem. 2022 Jun 13;61(23):8955-8965. doi: 10.1021/acs.inorgchem.2c01563. Epub 2022 Jun 2.
Reaction of the uranium(III) bis(amidinate) aryl complex {TerphC(NPr)}U(Terph) (, where Terph = 4,4″-di--butyl--terphenyl-2'-yl) with a strong reductant enabled isolation of isomeric uranium(III) bis(amidinate) aryl product {TerphC(NPr)}U(Terph*) (, where Terph* = 4,4″-di--butyl--terphenyl-4'-yl). In terms of connectivity, differs from only in the positions of the U-C and C-H bonds on the central aryl ring of the -terphenyl-based ligand. A deuterium labeling study ruled out mechanisms for this isomerization involving intermolecular abstraction or deprotonation of the ligand C-H bonds activated during the reaction. Due to the complexity of this rapid, heterogeneous reaction, experimental studies could not further distinguish between two different intramolecular C-H activation mechanisms. However, high-level computational studies were consistent with a mechanism that included two sets of unimolecular, mononuclear C-H oxidative addition and reductive elimination steps involving uranium(II/IV).
铀(III)双(脒基)芳基配合物{TerphC(NPr)}U(Terph)(其中Terph = 4,4″-二叔丁基-间三联苯-2'-基)与强还原剂反应,得以分离出异构的铀(III)双(脒基)芳基产物{TerphC(NPr)}U(Terph*)(其中Terph* = 4,4″-二叔丁基-间三联苯-4'-基)。就连接性而言, 与 的不同仅在于基于间三联苯的配体中心芳环上U-C键和C-H键的位置。氘标记研究排除了该异构化反应涉及反应过程中活化的配体C-H键的分子间夺取或去质子化的机制。由于这种快速的多相反应的复杂性,实验研究无法进一步区分两种不同的分子内C-H活化机制。然而,高水平的计算研究与一种机制相符,该机制包括两组涉及铀(II/IV)的单分子单核C-H氧化加成和还原消除步骤。
