Abstract

The difficulties confronted during the extraction and separation of heavy rare earths (HREs) were low separation factors and high concentration of acid solution consumption. A new strategy for extraction separation and stripping of HREs by phase separation behaviors of the three liquid phases coexisting system consisting of Cyanex272/PEG 2000/(NH4)2SO4-H2O was investigated. It was found that the separation factors could be adjusted by phase-forming polymer PEG 2000 and electrolyte salt (NH4)2SO4 concentrations, aqueous pH, as well as water-soluble complexing agent DTPA. The stripping of HREs from organic phase and PEG-rich phase were easily achieved via regulation of phase-forming salt concentration instead of utilizing acid solution with high concentration. It was confirmed that the main driving force for transfer of HREs was a special hydrophobic interaction between RE(III)-DTPA complexes and PEG molecular chains occurring on oxygen atoms of C-O-C segments in PEG molecular chains by FTIR spectroscopy and molecular dynamics simulations on the molecular scale. The present work highlights a new understanding for microscopic molecular mechanism of rare earths partitioning into three liquid layers of three-liquid-phase system so as to be stripped from the loaded organic phase.

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