17047-93-7Relevant academic research and scientific papers
Facile and highly selective silylation of vinylpyridines at the β-olefinic carbon by magnesium-promoted reduction
Zhang, Tianyuan,Zhang, Zeyu,Nishiyama, Yutaro,Maekawa, Hirofumi
, p. 2293 - 2299 (2016)
Magnesium-promoted reductive silylation of 2- and 4-vinylpyridines with chlorotrialkylsilanes in N-methylpyrrolidinone at room temperature led to the selective formation of a variety of the corresponding β-mono-silylated compounds at the terminal carbon atom in good to excellent yields, whereas silylation of 3-vinylpyridine under the same reduction conditions failed to give a complex mixture of silylated compounds. The difference of the results between 2- or 4-vinylpyridines and 3-vinylpyridine is attributed to that of the stabilizing effect to reaction intermediates by the resonance with the nitrogen atom of pyridine.
[Rh(Cod)Cl]2/Pph3?catalyzed dehydrogenative silylation of styrene derivatives with NBE as a hydrogen acceptor
Li, Chengyang,Lu, Wenkui,Wu, Xiaoyu,Xie, Xiaomin,Zhang, Zhaoguo
, p. 3780 - 3788 (2020/11/23)
Direct synthesis of arylalkenylsilanes by [Rh(COD)Cl]2/ PPh3-catalyzed dehydrogenative silylation of styrene derivatives with R3SiH (R = alkyl, alkoxy, aryl) was realized, in which norbornene (NBE) and PPh3 play a key role in achieving excellent selectivity in the formation of dehydrogenative silylation products. Moreover, this high-yielding transformation exhibits a broad substrate scope and good functional group tolerance.
