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ZIF-8 Used for the Selective Recovery of Heavy Rare Earth Elements from Mining Wastewater

Ronghao Wu, Bengen Hong, Chao Xue, Zhibiao Chen, Zhibiao Chen, Zuliang Chen, Zuliang Chen

2024Environmental Science & Technology71 citationsDOI

Abstract

In this study, a sample of 2-methylimidazole zinc salt (ZIF-8) demonstrated high selectivity for the recovery of heavy rare earth elements (REEs) from real rare earth mining wastewater. Results show that the distribution coefficient values of Y 3+ (4.02 × 10 4 mL·g –1 ), Gd 3+ (7.8 × 10 4 mL·g –1 ), and Dy 3+ (6.8 × 10 4 mL·g –1 ) are orders of magnitude higher than those of K + (359.51 mL·g –1 ), Mn 2+ (266.67 mL·g –1 ), Ca 2+ (396.42 mL·g –1 ), and Mg 2+ (239.48 mL·g –1 ). Moreover, the desorption efficiency of heavy REEs exceeded 40%. Advanced characterizations and density functional theory (DFT) calculations were utilized to elucidate that the heavy REEs were more likely to bind to the nitrogen atoms of imidazole groups on ZIF-8 compared to non-REEs. Furthermore, the adsorption and desorption of heavy REEs primarily depend on the chemical interaction confirmed by adsorption kinetics, isotherm model, and thermodynamic analysis, which involves the dissociation of water and the formation of REE–O bonds. Finally, the ZIF-8 exhibits a remarkable recovery efficiency of over 40% for heavy REEs in column tests conducted over 7h. The findings reported here provide new insights into the selective recovery of heavy REEs from real mining wastewater.

Topics & Concepts

WastewaterRare earthHeavy metalsEnvironmental scienceWaste managementEarth (classical element)Environmental chemistryChemistryEnvironmental engineeringEngineeringMineralogyPhysicsMathematical physicsExtraction and Separation ProcessesGeochemistry and Elemental AnalysisChemical Synthesis and Characterization