Solvent Extraction of Sr2+and Cs+using Protic Amide-Based Ionic Liquids

Extraction of Acids and Bases from Aqueous Phase to a Pseudoprotic Ionic Liquid

We report experiments on the extraction of acids and bases from an aqueous phase to a pseudoprotic ionic liquid phase consisting of an equimolar mixture of trihexylamine and octanoic acid. We observed the extraction of a wide range of acids and bases, and investigated the mechanism of extraction in detail. Our results confirmed the observation of the Hofmeister effect in these systems reported in our previous work, where the extent of the extraction of copper salts was significantly influenced by the interactions between extracted inorganic anions and the organic phase. Our results further demonstrated that the organic layer served as a "floating buffer" capable of stabilizing the pH of an acidic or alkaline aqueous phase. The results tie current interest in protic and pseudoprotic ionic liquids to earlier work on the extraction of acids using amine and acid⁻base couples as extraction agents in an inert organic solvent.

Tandem dissolution of UO3 in amide-based acidic ionic liquid and in situ electrodeposition of UO2 with regeneration of the ionic liquid: a closed cycle

A closed cycle is demonstrated for the tandem dissolution and electroreduction of UO₃ to UO₂ with regeneration of the acidic ionic liquid.

Dual mode of extraction for Cs+ and Na+ ions with dicyclohexano-18-crown-6 and bis(2-propyloxy)calix[4]crown-6 in ionic liquids: density functional theoretical investigation

Experimentally observed distribution constant and theoretically predicted values of ΔG_ext for Cs⁺ and Na⁺ ions with DCH18C6 and BPC6 ligand in ionic liquid and octanol.