Gulyaeva Ekaterina S, Buhaibeh Ruqaya, Boundor Mohamed, Azouzi Karim, Willot Jérémy, Bastin Stéphanie, Duhayon Carine, Lugan Noël, Filippov Oleg A, Sortais Jean-Baptiste, Valyaev Dmitry A, Canac Yves
LCC-CNRS, Université de Toulouse, CNRS, UPS, 205 route de Narbonne, 31077, Toulouse Cedex 4, France.
A. N. Nesmeyanov Institute of Organoelement Compounds (INEOS), Russian Academy of Sciences, 28/1 Vavilov str., GSP-1, B-334, Moscow, 119334, Russia.
Chemistry. 2024 Apr 16;30(22):e202304201. doi: 10.1002/chem.202304201. Epub 2024 Feb 28.
Systematic modification of the chelating NHC-phosphine ligand (NHC = N-heterocyclic carbene) in highly efficient ketone hydrogenation Mn(I) catalyst fac-[(PhPCHNHC)Mn(CO)Br] has been performed and the catalytic activity of the resulting complexes was evaluated using acetophenone as a benchmark substrate. While the variation of phosphine and NHC moieties led to inferior results than for a parent system, the incorporation of a phenyl substituent into the ligand methylene bridge improved catalytic performance by ca. 3 times providing maximal TON values in the range of 15000-20000. Mechanistic investigation combining experimental and computational studies allowed to rationalize this beneficial effect as an enhanced stabilization of reaction intermediates including anionic hydride species fac-[(PhPC(Ph)NHC)Mn(CO)H] playing a crucial role in the hydrogenation process. These results highlight the interest of such carbon bridge substitution strategy being rarely employed in the design of chemically non-innocent ligands.
对高效酮氢化锰(I)催化剂fac-[(PhPCHNHC)Mn(CO)Br]中螯合的NHC-膦配体(NHC = N-杂环卡宾)进行了系统修饰,并以苯乙酮作为基准底物评估了所得配合物的催化活性。虽然膦和NHC部分的变化导致结果比母体体系差,但在配体亚甲基桥中引入苯基取代基使催化性能提高了约3倍,提供了15000-20000范围内的最大TON值。结合实验和计算研究的机理研究使我们能够将这种有益效果合理化,即反应中间体(包括在氢化过程中起关键作用的阴离子氢化物物种fac-[(PhPC(Ph)NHC)Mn(CO)H])的稳定性增强。这些结果突出了这种碳桥取代策略在化学非惰性配体设计中很少使用的意义。
