69729-93-7Relevant academic research and scientific papers
From Alkenes to Isoxazolines via Copper-Mediated Alkene Cleavage and Dipolar Cycloaddition
Gao, Mingchun,Gan, Yuansheng,Xu, Bin
, p. 7435 - 7439 (2019)
An unprecedented copper-mediated anion transformation is reported, along with selective C= C double bond cleavage and dipolar cycloaddition reaction from simple alkenes and inexpensive copper nitrate. Various transformations demonstrate the generality of this method. Further mechanistic investigation indicates a novel ionic pathway for alkene cleavage and highlights the coeffect of iodide and boric acid as additives on the inhibition of well-documented competitive nitration byproducts.
Copper nitrate-mediated synthesis of 3-aryl isoxazolines and isoxazoles from olefinic azlactones
Lin, Yifan,Zhang, Ke,Gao, Mingchun,Jiang, Zheyi,Liu, Jiajie,Ma, Yurui,Wang, Haoyu,Tan, Qitao,Xiao, Junjie,Xu, Bin
supporting information, p. 5509 - 5513 (2019/06/14)
A copper nitrate-mediated [2 + 2 + 1] cycloaddition reaction was developed for the expedient synthesis of pharmacologically interesting 3-aryl substituted isoxazolines and isoxazoles through CC bond cleavage. Copper nitrate is employed as a reaction promoter and precursor of nitrile oxides. The given approach features a new mode of cycloaddition from olefinic azlactones, copper nitrate and unsaturated compounds with wide substrate scope, good functional group tolerance and operational simplicity.
