1135413-76-1Relevant articles and documents
Pyrazine Based Type-I Sensitizing Assemblies for Photoreduction of Cu(II) in ‘One-Pot Three-Component’ CuAAC Reaction Under Aerial Conditions
Kumar, Sourav,Kumar, Manoj,Bhalla, Vandana
supporting information, p. 3944 - 3950 (2021/10/19)
Photosensitizing assemblies of pyrazine derivative PDA have been developed which exhibit a high photostability, ‘lighted’ excited state, balanced redox potential, high transportation potential and activate oxygen via type-I pathway only. These PDA assemblies in combination with Cu(II) ions catalyze the CuAAC reaction via in situ reduction of Cu(II) ions without any reducing or stabilizing agent. The present protocol has wide substrate scope with recyclability of the catalytic system up to six catalytic cycles and is applicable to gram-scale synthesis.
Application of two magnetic nanoparticle-supported copper(I) catalysts for the synthesis of triazole derivatives
Mohammadi, Leila,Zolifgol, Mohammad Ali,Yarie, Meysam,Ebrahiminia, Mahsa,Roberts, Kenneth P.,Hussaini, Syed R.
, p. 4789 - 4799 (2019/06/11)
Catalytic performance of two magnetically recoverable copper(I) complexes is reported for the synthesis of 1,2,3-triazole derivatives. Boronic acids and alkyl halides, in the presence of either catalyst, react with terminal alkynes and NaN3, fo
Green Catalytic Process for Click Synthesis Promoted by Copper Oxide Nanocomposite Supported on Graphene Oxide
Reddy, V. Hanuman,Reddy, Y. V. Rami,Sridhar,Reddy, B. V. Subba
, p. 1088 - 1092 (2016/04/19)
The catalytic activity of graphene oxide supported copper oxide (CuO-GO) has been investigated in Click synthesis of 1,2,3-triazole derivatives under green reaction conditions. In the context of green approach, water is used as solvent under ligand free a