Ru-Catalyzed Geminal Hydroboration of Silyl Alkynes via a Newgem-Addition Mechanism

硼氢化 双生的 化学 硅烷化 炔烃 硅氢加成 药物化学 卡宾 催化作用 立体化学 有机化学
作者
Qiang Feng,Haonan Wu,Xin Li,Lijuan Song,Lung Wa Chung,Yun‐Dong Wu,Jianwei Sun
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:142 (32): 13867-13877 被引量:63
标识
DOI:10.1021/jacs.0c05334
摘要

While 1,2-addition represents the most common mode of alkyne hydroboration, herein we describe a new 1,1-hydroboration mode. It is the first demonstration of gem-(H,B) addition to an alkyne triple bond. With the superior [CpRu(MeCN)3]PF6 catalyst, a range of silyl alkynes reacted efficiently with HBpin under mild conditions to form various synthetically useful silyl vinyl boronates with complete stereoselectivity and broad functional group compatibility. An extension to germanyl alkynes and the hydrosilylation of alkynyl boronates toward the same type of products were also achieved. Mechanistically, this process features a new pathway featuring gem-(H,B) addition to form the key α-boryl-α-silyl Ru-carbene intermediate followed by silyl migration. It is believed that the orbital interaction between boron and Cβ in the coplanar relationship between the boron atom and the ruthenacyclopropene ring preceding boron migration is responsible for the new reactivity. Control experiments and DFT (including molecular dynamics) calculations provided important insights into the mechanism, which excluded the involvement of a metal vinylidene intermediate. This study represents a new step forward not only for alkyne hydroboration but also for other geminal additions of alkynes.
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