Dear Colleagues, This Special Issue of Molecules is dedicated to the use of ionic liquids as solvents in organic synthesis. Over the past two decades, ionic liquids have risen from being a specialist curiosity to a novel solvent for academic research, to full-blown industrial application.
Synthesis of ionic liquids ultrasound results showed that the first step of synthesis of ionic liquids in ultrasonic output power 100%. The reaction time of 120 minutes (Bmim)Cl ionic liquid yield of 61% for the best yield. The (Bmim)PF 6 ionic liquid were synthesized by ultrasound for second step. The original 24 to 48 hours of reaction time.
Synthesis, Characterization and Application of 1-Butyl-3 Methylimidazolium Chloride as Green Material for Extractive Desulfurization of Liquid Fuel Figure 5 DSC analysis of (BMIM)Cl.
The possible application of imidazolium ionic liquids as energy-efficient green material for extractive deep desulfurization of liquid fuel has been investigated. 1-Butyl-3-methylimidazolium chloride (BMIM)Cl was synthesized by nucleophilic substitution reaction of n-methylimidazolium and 1-chlorobutane.
The formation of hydroxymethylfurfural (HMF) from glucose was studied. It was found that the CrCl 2-catalyzed conversion in the ionic liquid, butylmethylimidazolium chloride ((Bmim)Cl) leads to negligible quantities of 3-deoxyglucosone confirming that fructose is the main intermediate.It was found that the environmentally unfriendly chromium salt could be replaced with zeolite (H-ZSM-5.
The most important uses of (bmim)Cl were as a reactant, catalyst or catalyst component, and solvent. Important uses of (NBuPy)Cl were in catalysts, battery electrolytes, syntheses (excluding the catalysts group), and electrochemical uses other than batteries. This review provides specific examples of the preparation and uses of (bmim)Cl-AlCl3.
The last decades have witnessed a considerable growth in energy consumption. To curb this trend, Goal 11 of the United Nations Sustainable Development Goals for 2030 targets inclusive, safe, resilient, and sustainable cities, to ensure universal access to affordable, reliable, sustainable, and.
Industrial alkali lignin (LG) was used as raw material and ionic liquid 1-butyl 3-methylimidazolium chloride ((BMIm)Cl) was used as solvent. Alkali lignin was dissolved into the (BMIm)Cl and modified as propyl ether lignin(HLG). Then the HLG modified lignin was used to synthesizing the lignin-based epoxy resin (LGEP) with epoxy chloropropane.