1600527-36-3Relevant academic research and scientific papers
Insights into a Chemoselective Cobalt Catalyst for the Hydroboration of Alkenes and Nitriles
Ibrahim, Abdulrahman D.,Entsminger, Steven W.,Fout, Alison R.
, p. 3730 - 3734 (2017)
A chemoselective hydroboration protocol with terminal alkene substrates is reported using an electron-rich, low-valent cobalt pincer compound. The process is catalytic and leads to exclusive formation of anti-Markovnikov products, tolerating amino groups, esters, epoxides, ketones, and other functionalities. The protocol was successfully extended toward the hydroboration of nitriles, generating the corresponding amines in moderate to good yields. Labeling studies with deuterated pinacolborane gave insights into the mechanism, establishing the intermediacy of a cobalt hydride, as well as an insertion, β-hydride elimination, and alkene isomerization pathway. These insights provide a rationale for the observed regioselectivity and allow us to propose a catalytic mechanism.
Site-Fixed Hydroboration of Terminal and Internal Alkenes using BX3/iPr2NEt**
Cui, Xin,Hu, Chenyang,Li, Sida,Liu, Liu Leo,Wu, Lipeng,Zhang, Jiong
supporting information, p. 26238 - 26245 (2021/11/09)
An unprecedented and general hydroboration of alkenes with BX3 (X=Br, Cl) as the boration reagent in the presence of iPr2NEt is reported. The addition of iPr2NEt not only suppresses alkene polymerizat
A cobalt-catalyzed alkene hydroboration with pinacolborane
Zhang, Lei,Zuo, Ziqing,Leng, Xuebing,Huang, Zheng
supporting information, p. 2696 - 2700 (2014/03/21)
An extremely efficient cobalt catalyst for the hydroboration of both vinylarenes and aliphatic α-olefins with pinacolborane is described, providing the anti-Markovnikov products with excellent regio- and chemoselectivity, broad functional-group tolerance,
