Abstract
Over the years, the imidazole nucleus has attracted considerable interest due to their chemical and biological properties. Imidazole ring is part of the structure of various natural products and drugs. In chemistry are employed as ligand, catalysts for chemical reactions and also as a starting material for the synthesis of ionic liquids. Ionic liquids have an important role in organic synthesis, are used as solvents and catalysts, exerting a profound effect on activity and selectivity of different chemical reactions. In this work, we report an approach to the synthesis of ionic liquids using N-substituted imidazole from Morita-Baylis-Hillman adducts.
Highlights
Over the years, the imidazole nucleus has attracted considerable interest due to their chemical and biological properties
Ionic liquids have an important role in organic synthesis, are used as solvents and catalysts, exerting a profound effect on activity and selectivity of different chemical reactions.[2]
We report an approach to the synthesis of ionic liquids using N-substituted imidazole from Morita-Baylis-Hillman adducts
Summary
The imidazole nucleus has attracted considerable interest due to their chemical and biological properties. Ionic liquids have an important role in organic synthesis, are used as solvents and catalysts, exerting a profound effect on activity and selectivity of different chemical reactions.[2]
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