烯丙基重排
化学
硼酸化
硼氢化
有机硼化合物
有机化学
加氢脱氧
催化作用
硼
反应机理
反应条件
动力控制
机制(生物学)
组合化学
过渡状态
作者
Xuelian Ma,Haiyue Zhou,Xi Zhang,Wang-Bin You,Yuxuan Wang,Jun Yan,Z. X. Wang,Xia Tian,Jian‐Rong Han,Zhi-Qiang Ge,Ying-Zhuang Xu,Wei Su
标识
DOI:10.1021/acs.orglett.6c01059
摘要
Herein, an iron-catalyzed divergent borylation of α-aryl-substituted allylic alcohols is reported. Precise tuning of the reaction system enables control over the chemo-, regio-, and stereoselectivities, providing divergent access to three valuable classes of organoboron compounds: β-borylated alkylarenes, γ-borylated alkylarenes, and allylic boronates. Mechanistic studies reveal that β-borylated alkylarenes are formed via a sequential hydrodeoxygenation-olefin isomerization-hydroboration cascade, γ-borylated alkylarenes are produced through hydrodeoxygenation followed by selective hydroboration of β,γ-olefin intermediates, and allylic boronates are generated via a mechanism featuring a six-membered cyclic transition state.
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