化学
对映选择合成
反应性(心理学)
基质(水族馆)
配体(生物化学)
组合化学
酰胺
分子内力
催化作用
立体化学
串联
非共价相互作用
过渡状态
密度泛函理论
手性配体
有机化学
模块化设计
计算化学
有机催化
双键
加成反应
立体异构
氨基酸
作者
Jian Zhou,Sichen Tao,Xinglong Zhang,Jun Wang
摘要
Transition metal-catalyzed asymmetric hydrophosphination of unsaturated bonds offers the most direct route to chiral organophosphorus compounds. However, unactivated double bonds remain a longstanding challenge in this field due to their inherent low reactivity and the difficulty in achieving precise enantio- and regiocontrol. Herein, we report an amide-assisted asymmetric and regiodivergent hydrophosphination of unactivated alkenes catalyzed by a synergistic Ni(cod)2/BenzP and Brønsted acid system. Mechanistic studies and density functional theory calculations reveal that the weak noncovalent interactions between the amide substrate and the ligand are critical for selectivity. Diverging from conventional migratory insertion pathways, this strategy leverages distinct hydronickelation pathways mediated solely by pyridine-3-sulfonic acid or 3,5-difluorophenol additives, enabling precise control over enantioselectivity and regioselectivity. All of the branched and linear products are accessed with excellent regiodivergence, showcasing a versatile platform for the modular synthesis of chiral organophosphorus compounds.
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