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Nanoconfined Interfaces for Highly Selective Separation of Critical Rare Earth Elements

Ilgen, Anastasia G.; Sava Gallis, Dorina F.; Leung, Kevin; Harvey, Jacob; Kubicki, James D.; Borguet, Eric; Sikma, R.E.; Song, Boyoung; Watts, Heath D.

Industrial demand for rare earth elements (REEs) has surged over the past three decades due to their unique properties that support sustainable energy and new technologies. Separating individual REEs is challenging and hazardous, typically done through liquid-liquid extraction. There is an urgent need for environmentally friendly and efficient separation technologies for REEs. Porous materials offer promising advances for sustainable REE separation via ion-selective capture. We hypothesize that REE separation can be efficiently achieved in reactive nanopores, such as Zr(IV) and Cr(III) metal-organic frameworks (MOFs), through surface functionalization. By integrating material synthesis, interfacial chemistry experiments, theory, computation, and machine learning, we gained insights into the chemical factors controlling REE speciation and their competitive adsorption on MOFs. Our findings show that these materials’ selectivity can be tuned by surface functionalization. The machine learning component addressed ion-specific diffusion based on MOF topology and chemistry.

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Tuning the pore chemistry of Zr-MOFs for efficient metal ion capture from complex streams

Chemical Communications

Sava Gallis, Dorina F.; Sikma, R.E.; Song, Boyoung; Deneff, Jacob I.; Smith, Jacob; Sanchez, Kadie; Reyes, Raphael A.; Fritzsching, Keith; Ilgen, Anastasia G.

Metal-organic frameworks (MOFs) have shown promise for adsorptive separations of metal ions. Herein, MOFs based on highly stable Zr(iv) building units were systematically functionalized with targeted metal binding groups. Through competitive adsorption studies, it was shown that the selectivity for different metal ions was directly tunable through functional group chemistry.

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