Separation of precious metals by split-anion extraction using water-saturated ionic liquids

Abstract

A split-anion solvent extraction process was developed for the separation of precious metal ions Au(iii), Pt(iv), Pd(ii) and Rh(iii) from aqueous chloride media using water-saturated ionic liquids. The metal extraction and stripping behavior of the chloride form [A336][Cl], bromide form [A336][Br] and the iodide form [A336][I] of the quaternary ammonium ionic liquid Aliquat 336 were compared. The three ionic liquids extracted Au(iii), Pd(ii) and Pt(iv) quantitatively in most cases, whereas the co-extraction of Rh(iii) was strongly dependent on the acidity and the chloride concentration. Among the studied ionic liquids, [A336][I] achieved the highest separation factors between Pd(ii)/Rh(iii), Pt(iv)/Rh(iii), and Au(iii)/Rh(iii) at 6 mol L-1 Cl-. Additionally, the selective stripping of the individual metal ions Pd(ii), Au(iii), and Pt(iv) was only possible from loaded [A336][I] using ammonia solution (NH4OH), sodium thiosulfate (Na2S2O3), and thiourea ((NH2)2CS), respectively. A closed-loop flow sheet was designed for the recovery of the precious metals from chloride media using split-anion extraction with [A336][I]. The integrated process was demonstrated to be suitable for the purification of Rh(iii), Pt(iv) and Pd(ii) from a complex metal feed such as the leachate of spent automotive catalysts. The ionic liquid-based split-anion extraction process is simple, selective and effective for the sustainable separation of the precious metals, using only one green extractant [A336][I], which can be regenerated for consecutive extraction-stripping cycles.