Selective Recovery of Cerium as High-Purity Oxides via Reactive Separation Using CO<sub>2</sub>-Responsive Structured Ligands

Vibbert, Hunter B.; Ooi, Amanda Whai Shin; Park, Ah-Hyung Alissa

doi:10.1021/acssuschemeng.3c08103

ACS Sustainable Chem. Eng.

2024

DOI: 10.1021/acssuschemeng.3c08103

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Selective Recovery of Cerium as High-Purity Oxides via Reactive Separation Using CO₂-Responsive Structured Ligands

Hunter B. Vibbert,

Amanda Whai Shin Ooi,

Ah-Hyung Alissa Park

Abstract: Development of new ligand systems that selectively extract and release critical elements, such as lanthanides, in the presence of other metal ions at significantly higher concentrations can provide a sustainable alternative to conventional mining and ligand-based flotation reagents. In this work, the rational design of a highly tunable molecular scaffold based on tris(2-aminoethyl)amine is elaborated. When functionalized with salicylaldehydes, the corresponding imine ligands were observed to effectively extrac… Show more

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Cited by 4 publications

References 95 publications

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Experimental validation of the presence of flow maldistribution in electrodialysis stacks and its effect on the limiting current density

Ledingham,

Howse,

Campbell

et al. 2025

Journal of Membrane Science

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Experimental validation of the presence of flow maldistribution in electrodialysis stacks and its effect on the limiting current density

Ledingham,

Howse,

Campbell

et al. 2025

Journal of Membrane Science

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Investigation of in-situ mechanical and chemical etching: A milder hydrometallurgical approach for Au, Ni, and Cu recovery from printed circuit boards

Huang,

Ooi,

Moment

2025

Resources, Conservation and Recycling

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2-Hydroxyaryloximes as Tunable Extractants for Selective First–Row Transition Metal Liquid–Liquid Extraction: Dimerization Coefficients, pK_a, and pH_0.5

Shin Ooi,

Qian,

Vibbert

et al. 2024

Ind. Eng. Chem. Res.

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As critical minerals such as Ni and Co are essential for modern technologies and clean energy solutions, there is an urgent need to develop sustainable extraction methods to meet rising demand and mitigate environmental impacts of existing mining practices. 2-Hydroxyaryloximes are promising candidates for metal separation as they form stable size-selective pseudomacrocyclic dimers through hydrogen-bonding networks. These ligands exhibit pH-dependent coordination properties, influenced by the protonation state of the phenolic oxygen. Herein, structure− property relationships of seven 2-hydroxyaryloximes and their efficacy as ligands in liquid−liquid extraction schemes for Ni and Co are explored to provide a framework for designing ligands that could lead to more effective and sustainable solvent extraction processes. A generalized multigram synthesis for 2-hydroxyaryloximes is reported along with concentration-and solvent-dependent characterization of the complexes. Steric and electronic effects induced by modifications of peripheral substituent groups on dimerization constants and pK a values of the complexes were systematically investigated using NMR and potentiometric titrations. Our findings demonstrate the potential to tune the extractive properties of 2-hydroxyaryloximes, allowing for optimization of pH windows for selective metal recovery. Solvent extraction experiments with Ni and Co systems further illustrate that extraction efficiency and selectivity can be altered through rational ligand design.

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Selective Recovery of Cerium as High-Purity Oxides via Reactive Separation Using CO₂-Responsive Structured Ligands

Cited by 4 publications

References 95 publications

Experimental validation of the presence of flow maldistribution in electrodialysis stacks and its effect on the limiting current density

Experimental validation of the presence of flow maldistribution in electrodialysis stacks and its effect on the limiting current density

Investigation of in-situ mechanical and chemical etching: A milder hydrometallurgical approach for Au, Ni, and Cu recovery from printed circuit boards

2-Hydroxyaryloximes as Tunable Extractants for Selective First–Row Transition Metal Liquid–Liquid Extraction: Dimerization Coefficients, pK_a, and pH_0.5

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Selective Recovery of Cerium as High-Purity Oxides via Reactive Separation Using CO2-Responsive Structured Ligands

Cited by 4 publications

References 95 publications

Experimental validation of the presence of flow maldistribution in electrodialysis stacks and its effect on the limiting current density

Experimental validation of the presence of flow maldistribution in electrodialysis stacks and its effect on the limiting current density

Investigation of in-situ mechanical and chemical etching: A milder hydrometallurgical approach for Au, Ni, and Cu recovery from printed circuit boards

2-Hydroxyaryloximes as Tunable Extractants for Selective First–Row Transition Metal Liquid–Liquid Extraction: Dimerization Coefficients, pKa, and pH0.5

Contact Info

Product

Resources

About

Selective Recovery of Cerium as High-Purity Oxides via Reactive Separation Using CO₂-Responsive Structured Ligands

2-Hydroxyaryloximes as Tunable Extractants for Selective First–Row Transition Metal Liquid–Liquid Extraction: Dimerization Coefficients, pK_a, and pH_0.5