化学
卤化
磷化氢
位阻效应
亲核细胞
吡啶
试剂
钋
反应性(心理学)
亲核芳香族取代
卤素
组合化学
电泳剂
键裂
卤化物
有机化学
药物化学
亲核取代
烷基
催化作用
医学
替代医学
病理
作者
Jeffrey N. Levy,Juan V. Alegre‐Requena,Renrong Liu,Robert S. Paton,Andrew McNally
摘要
Halopyridines are key building blocks for synthesizing pharmaceuticals, agrochemicals, and ligands for metal complexes, but strategies to selectively halogenate pyridine C-H precursors are lacking. We designed a set of heterocyclic phosphines that are installed at the 4-position of pyridines as phosphonium salts and then displaced with halide nucleophiles. A broad range of unactivated pyridines can be halogenated, and the method is viable for late-stage halogenation of complex pharmaceuticals. Computational studies indicate that C-halogen bond formation occurs via an SNAr pathway, and phosphine elimination is the rate-determining step. Steric interactions during C-P bond cleavage account for differences in reactivity between 2- and 3-substituted pyridines.
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