Share Your Research, Maximize Your Social Impacts
Caesium carbonate as a highly efficient catalyst for the synthesis of macrocyclic diamides
Journal: Iranian Chemical Communication (Vol.2, No. 3)Publication Date: 2014-07-01
Authors : Esmael Rostami; Maryam Bagherzadeh; Akram Khodadadi; Ay Soda Ghobadpoor; Fatemeh Dehghani; Zahra Heidari; Mahmood Feraidooni; Zahra Abshirini; Fatemeh Tavazo; Zahra Keshvarz;
Page : 187-195
Keywords : Macrocyclic diamide; aza oxa thia crown; Synthesis; macrocycle and caesium carbonate (CS2CO3). ________________________________________;
Source : Download
Find it from : Google Scholar
Abstract
In this research work, we report the synthesis of macrocyclic diamides from the reaction of diesters and aliphatic diamines in the presence of caesium carbonate. It has been demonstrated that among the carbonate of alkali metals (Li2CO3, Na2CO3, K2CO3 and CS2CO3), CS2CO3 appear to be the best catalyst for macrocyclization. Diesters with different substitution patterns on the aromatic ring reacted smoothly with diamines under optimal conditions, affording the corresponding macrocycles in high yields. Introducing a rigid group (e.g., sulfone) on the substrate led to somewhat decreased yield. Various substrates proved to be suitable for this macrocyclization reaction, especially, the flexible ones.
Other Latest Articles
- Ag nanoparticle/melamine sulfonic acid supported on silica gel as an efficient catalytic system for synthesis of dihydropyrimidin thiones
- Effects of structure and number of Heteroatom on the π-π stacking interactions of benzene with N-substituted coronenes: A theoretical study
- 1-Carboxymethyl-3-methylimidazolium chloride {[cmmim]Cl} as an efficient catalyst for the solvent-free synthesis of bis(indolyl)methanes
- One-pot and one-step novel N-methylation of 2,6-diaminopyridine
- Efficient classical synthesis of aminoazines under microwave irradiation
Last modified: 2018-05-13 06:22:48