Weindl Christian, Hintermann Lukas
School of Natural Science, Department Chemie, Technische Universität München, Lichtenbergstr. 4, Garching bei München, 85748, Germany.
TUM Catalysis Research Center, Technische Universität München, Ernst-Otto-Fischer-Str. 1, Garching bei München, 85748, Germany.
Chemistry. 2024 Jul 2;30(37):e202401034. doi: 10.1002/chem.202401034. Epub 2024 May 27.
Syntheses of (partially) aromatic nitrogen heterocycles increasingly rely on transition-metal catalyzed C-C- and C-N-cross-coupling reactions. Here we describe a different approach to the synthesis of indolines by a domino C(sp)-H activation, 1,2-addition, and defluorinative SAr-cyclization sequence to provide the target 1,2-diarylindolines (1,2-diaryl-2,3-dihydroindoles) from ortho-fluorinated methyl-arenes and N-aryl imines (benzylidene anilines) in a cyclocondensation that is mediated by potassium hexamethyldisilazide (KHMDS) as base exclusively. This transition-metal-free process via C-H and C-F bond activation provides a one-step entry into a wide array of indoline scaffolds (43 examples, up to 96 % yield). This privileged substructure is common in natural products and pharmaceuticals alike, and cannot be accessed by traditional condensation reactions.
(部分)芳香族氮杂环的合成越来越依赖于过渡金属催化的碳-碳和碳-氮交叉偶联反应。在此,我们描述了一种不同的合成二氢吲哚的方法,即通过多米诺碳(sp)-氢活化、1,2-加成和脱氟芳基亲核取代环化序列,以六甲基二硅基氨基钾(KHMDS)作为唯一碱介导的环缩合反应,从邻氟甲基芳烃和N-芳基亚胺(苄叉苯胺)制备目标1,2-二芳基二氢吲哚(1,2-二芳基-2,3-二氢吲哚)。这种通过碳-氢键和碳-氟键活化的无过渡金属过程为一步合成多种二氢吲哚骨架提供了途径(43个实例,产率高达96%)。这种具有特殊结构的亚结构在天然产物和药物中都很常见,而传统的缩合反应无法得到此类结构。
