17469-23-7Relevant articles and documents
An expeditious synthetic access to β-(Z)-[(1-propynyl)amino]enones and β-[(Z)-(1-propynyl)amino]enoates
Gravestock, David,Dovey, Martin C.
, p. 523 - 530 (2003)
The silver nitrate promoted reaction of propargyl bromide with (Z)-4-amino-3-penten-2-ones and (Z)-3-amino-2-butenoates provides rapid access to β-(Z)-[(1-propynyl)amino]enones and β-[(Z)-(1-propynyl)amino]enoates respectively.
Iodine-catalyzed conversion of β-dicarbonyl compounds into β-enaminones within a minute under solvent-free conditions
Gogoi, Siddhartha,Bhuyan, Ranjana,Barua, Nabin C.
, p. 2811 - 2818 (2005)
Synthesis of β-enaminones from β-dicarbonyl compounds has been achieved in high yields within a minute using primary and aromatic amines and catalytic amounts of iodine under solvent-free conditions at room temperature. Copyright Taylor & Francis, Inc.
Regiospecific Hydroamination of Unsymmetrical Electron-Rich and Electron-Poor Alkynes with Anilines Catalyzed by Gold(I) Immobilized in MCM-41
Liu, Dayi,Nie, Quan,Zhang, Rongli,Cai, Mingzhong
supporting information, p. 3940 - 3948 (2018/09/14)
The first heterogeneous gold(I)-catalyzed regiospecific hydroamination of ynamides and propiolic acid derivatives with anilines has been achieved by using a diphenylphosphine-functionalized MCM-41-supported gold (I) complex and AgNTf2 as catalysts under mild conditions, yielding the corresponding (E)-N-arylimines and (Z)-enamines in good to excellent yields with broad substrate scope. The new heterogeneous gold(I) complex can easily be prepared via a two-step procedure from commercially available reagents and recovered by simple filtration of the reaction mixture. The recovered catalyst (Ph2P-MCM-41-AuNTf2) can be reused at least seven times without addition of AgNTf2 as a co-catalyst and its catalytic efficiency remains unaltered. (Figure presented.).
Synthesis of Quinoxaline Derivatives via Tandem Oxidative Azidation/Cyclization Reaction of N -Arylenamines
Ma, Haichao,Li, Dianjun,Yu, Wei
supporting information, p. 868 - 871 (2016/03/04)
A new method was developed for the synthesis of quinoxalines. This method employs N-arylenamines and TMSN3 as the starting materials and implements two oxidative C-N bond-forming processes in a tandem pattern by using (diacetoxyiodo)benzene as the common oxidant. The present reaction conditions are mild and simple and thus are useful in practical synthesis. (Chemical Equation Presented).