The different effects of sulfate on the adsorption of REEs on kaolinite and ferrihydrite

Ion-adsorption rare earth deposits (IAREDs) are important source for rare earth elements (REEs). The transportation, accumulation, fractionation, and leaching of REEs in IAREDs are mainly controlled by the interactions between REEs and mineral geosorbents. The coexisting ions can significantly affec...

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Published in:Applied clay science Vol. 221; p. 106468
Main Authors: Gu, Qiubei, Liu, Jing, Yang, Yixuan, Zhu, Runliang, Ma, Lingya, Liang, Xiaoliang, Long, Shiqin, Zhu, Jianxi, He, Hongping
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2022
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Summary:Ion-adsorption rare earth deposits (IAREDs) are important source for rare earth elements (REEs). The transportation, accumulation, fractionation, and leaching of REEs in IAREDs are mainly controlled by the interactions between REEs and mineral geosorbents. The coexisting ions can significantly affect the mineral-REEs interactions, which, however, are not currently well studied. This work investigated the effects of sulfate (SO42−) on the adsorption of REEs on kaolinite and ferrihydrite, two typical mineral geosorbents in IAREDs with distinct surface properties. The obtained results indicate that, with increasing SO42− concentration, the adsorption of REEs is hardly changed on kaolinite but remarkably enhanced on ferrihydrite. Additionally, SO42− can particularly improve the adsorption of middle REEs on ferrihydrite. The in situ ATR-FTIR spectra results, coupled with 2D correlation spectroscopic analysis, indicate that the promoted adsorption of REEs by SO42− on Fh is attributed to both the electrostatic attraction and the formation of Fe-REE-SO4 ternary complexes. However, the negatively charged kaolinite can hardly adsorb SO42− because of the strong electrostatic repulsion between them. Desorption experiments reveal that REEs can be more efficiently desorbed by NH4Cl from kaolinite than from ferrihydrite. The obtained results suggest that coexisting oxyanions have profound effects on the mineral-REEs interactions, which should be taken into consideration while exploring the transportation, accumulation, and fractionation of REEs in IARED. •Sulfate affects the adsorption of REEs on ferrihydrite but not on kaolinite.•The Fe-REE-SO4 ternary complexes were formed on ferrihydrite surface.•Desorption of REEs from kaolinite is more efficient than that from ferrihydrite.•Sulfate can enhance the fractionation of REEs on ferrihydrite.
ISSN:0169-1317
1872-9053
DOI:10.1016/j.clay.2022.106468