Authors
Yan Zhao, Xue Yan, Lei Xia, Yangbo Qiu, Shuang Zheng, Gang Lu, Yaoming Wang, Yang Zhang, Jiangnan Shen, Xi Zhang, Xing Yang, Jefferson Zhe Liu, Raf Dewil, Congjie Gao, Bart Van der Bruggen
Published in
Science advances. Volume 11. Issue 29. Pages eadv6646. Jul 18, 2025. Epub Jul 16, 2025.
Abstract
Membranes with precise ion transport behaviors are regarded as an alternative for lithium (Li) extraction from water streams. Current membranes demonstrate limited viability due to the lack of efficient Li+-selective architectures. We propose an electric field-assisted ion control hypothesis in reinforcing ultraefficient Li+-selective membranes, in which an ionized zeolitic imidazolate framework layer (Q-PEI@ZIF) is constructed via polyethylenimine (PEI) in situ confinement conversion and subsequent quaternization of 2,3-epoxypropyl trimethyl ammonium chloride. In electrodialysis at 5 milliampere per square centimeter, the resulting membrane Q(5%)-PEI(1.0)@ZIF#CEM shows that the ion permeation rates follow the order of K+ ~ Li+ > Na+ > Ca2+ ~ Mg2+, corresponding to 0.31, 0.30, 0.25, 0, and 0 mole per square meter per hour in 120 minutes, respectively. With a 25-millimolar Li+/Mg2+ mixed solution, it exhibits an unprecedented Li+/Mg2+ permselectivity of 20,000 and 99.99% purity of Li+ product in 120 minutes. This study expands the hypothesis of electric field-assisted ion control in enabling an ultraefficient Li+-selective construction.
PMID:
40668920
Bibliographic data and abstract were imported from PubMed on 17 Jul 2025.
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