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Article Abstract
The crucial role of Rare Earth Elements (REEs) in the development of hi-tech in addition to their limited availability have urged countries to develop sustainable alternatives to their conventional primary sources (ore mining). Sorption technologies using magnetic materials such as spinel ferrite nanoparticles provide efficient removal of REEs from contaminated solutions and ease of separation through application of an external magnetic field. However, there is still limited knowledge available regarding the optimal operational conditions in which to use these materials, especially in complex aqueous mixtures with different REEs. In this study, we have used Surface Response Methodology (SRM) applied to MnFeO nanosorbents to identify their ideal sorption conditions of pH (4-8), REEs concentration (1-5 μM) and sorbent mass (20-180 mg L) in a mixture of nine REEs in water samples of distinct salinity (NaCl: 0-30 g L). Our results indicated that high pH favored REEs sorption because of the material's surface charge, which promoted interactions with REEs ions at pH 6-8. Yttrium was the least removed element, but total removal was achieved for lowest REEs concentration using 151 mg L of sorbent. High removals were also obtained for the concentration of 5 μM (100 % removal, except for Y and La). Salinity did not impair sorption significantly (<10 %), which was owed to the high sorbent mass used in those assays. An increase in sorbent mass and initial REEs concentration also promoted faster kinetics. The spinel type MnFeO nanoparticles showed great promise in a realistic application, which is the next proposed step in this line of research.
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| http://dx.doi.org/10.1016/j.jenvman.2024.122211 | DOI Listing |
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