镍催化吡啶鎓离子的C-3直接芳基化反应合成1-氮杂芴
Nickel-Catalyzed C-3 Direct Arylation of Pyridinium Ions for the Synthesis of 1-Azafluorenes.
作者信息
Desrosiers Jean-Nicolas, Wei Xudong, Gutierrez Osvaldo, Savoie Jolaine, Qu Bo, Zeng Xingzhong, Lee Heewon, Grinberg Nelu, Haddad Nizar, Yee Nathan K, Roschangar Frank, Song Jinhua J, Kozlowski Marisa C, Senanayake Chris H
机构信息
Department of Chemical Development US, Boehringer-Ingelheim Pharmaceuticals, Inc. 900 Ridgebury Road, Ridgefield, CT, 06877, USA.
Department of Chemistry, University of Pennsylvania, Philadelphia, PA 19104-6323, USA.
出版信息
Chem Sci. 2016 Aug 1;7(8):5581-5586. doi: 10.1039/C6SC01457G. Epub 2016 May 19.
The direct arylation of pyridine substrates using non-precious catalysts is underdeveloped but highly desirable due to its efficiency to access important motifs while being extremely cost-effective. The first nickel-catalyzed C-3 direct arylation of pyridine derivatives to provide a new approach to valuable 1-azafluorene pharmacophore frameworks was developed. This transformation is accomplished using air-stable nickel catalyst precursors combined with phenanthroline ligands and tolerates a variety of substituents. Computational studies suggest facile oxidative addition via the pyridinium form, deprotonation, and a subsequent carbo-nickelation cyclization. Nickel homolysis/recombination permits isomerization to the stereochemical array needed for the final elimination.
使用非贵金属催化剂对吡啶底物进行直接芳基化的研究尚不完善,但因其在获得重要结构单元时具有高效性且极具成本效益,故而备受期待。首个镍催化吡啶衍生物的C-3直接芳基化反应得以开发,为合成有价值的氮杂芴药效团骨架提供了一种新方法。该转化反应是通过使用空气稳定的镍催化剂前体与菲咯啉配体来实现的,并且能够耐受多种取代基。计算研究表明,反应通过吡啶鎓形式进行 facile 氧化加成、去质子化以及随后的碳镍化环化反应。镍的均裂/重组使得异构化为最终消除反应所需的立体化学排列成为可能。 (注:“facile”此处可能是专业术语未准确翻译,可根据具体专业知识修正)
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