Positively‐Coated Nanofiltration Membranes for Lithium Recovery from Battery Leachates and Salt‐Lakes: Ion Transport Fundamentals and Module Performance

Foo, Zi Hao; Liu, Suwei; Kanias, Lucy; Lee, Trent R.; Heath, Samuel M.; Tomi, Yasuhiro; Miyabe, Tomotsugu; Keten, Sinan; Lueptow, Richard M.; Lienhard, John H.

doi:10.1002/adfm.202408685

Adv Funct Materials

2024

DOI: 10.1002/adfm.202408685

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Positively‐Coated Nanofiltration Membranes for Lithium Recovery from Battery Leachates and Salt‐Lakes: Ion Transport Fundamentals and Module Performance

Zi Hao Foo,

Suwei Liu,

Lucy Kanias

et al.

Abstract: Membranes facilitate scalable and continuous lithium concentration from hypersaline salt lakes and battery leachates. Conventional nanofiltration (NF) membranes, however, exhibit poor monovalent selectivity in high‐salinity environments due to weakened exclusion mechanisms. This study examines polyamide NF membranes coated with polyelectrolytes enriched with ammonium groups to maintain high monovalent cation selectivity in hypersaline conditions. Over 8000 ion rejection measurements are recorded using salt lak… Show more

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Cited by 3 publications

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Emerging membrane technologies for sustainable lithium extraction from brines and leachates: Innovations, challenges, and industrial scalability

Foo,

Lienhard

2025

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Emerging membrane technologies for sustainable lithium extraction from brines and leachates: Innovations, challenges, and industrial scalability

Foo,

Lienhard

2025

Desalination

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Toward a Circular Lithium Economy with Electrodialysis: Upcycling Spent Battery Leachates with Selective and Bipolar Ion-Exchange Membranes

Foo,

Lee,

Wegmueller

et al. 2024

Environ. Sci. Technol.

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Recycling spent lithium-ion batteries offers a sustainable solution to reduce ecological degradation from mining and mitigate raw material shortages and price volatility. This study investigates using electrodialysis with selective and bipolar ionexchange membranes to establish a circular economy for lithiumion batteries. An experimental data set of over 1700 ion concentration measurements across five current densities, two solution compositions, and three pH levels supports the technoeconomic analysis. Selective electrodialysis (SED) isolates lithium ions from battery leachates, yielding a 99% Li-pure retentate with 68.8% lithium retention, achieving relative ionic fluxes up to 2.41 for Li + over transition metal cations and a selectivity of 5.64 over monovalent cations. Bipolar membrane electrodialysis (BMED) converts LiCl into high-purity LiOH and HCl, essential for battery remanufacturing and reducing acid consumption via acid recycling. High current densities reduce ion leakage, achieving lithium leakage as low as 0.03%, though hydronium and hydroxide leakage in BMED remains high at 11−20%. Our analysis projects LiOH production costs between USD 1.1 and 3.6 per kilogram, significantly lower than current prices. Optimal SED and BMED conditions are identified, emphasizing the need to control proton transport in BMED and improve cobalt−lithium separation in SED to enhance cost efficiency.

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Nanofiltration Membranes for Efficient Lithium Extraction from Salt-Lake Brine: A Critical Review

Yong,

Yang,

Sun

et al. 2024

ACS Environ. Au

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Positively‐Coated Nanofiltration Membranes for Lithium Recovery from Battery Leachates and Salt‐Lakes: Ion Transport Fundamentals and Module Performance

Cited by 3 publications

References 92 publications

Emerging membrane technologies for sustainable lithium extraction from brines and leachates: Innovations, challenges, and industrial scalability

Emerging membrane technologies for sustainable lithium extraction from brines and leachates: Innovations, challenges, and industrial scalability

Toward a Circular Lithium Economy with Electrodialysis: Upcycling Spent Battery Leachates with Selective and Bipolar Ion-Exchange Membranes

Nanofiltration Membranes for Efficient Lithium Extraction from Salt-Lake Brine: A Critical Review

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