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Fine‐Tuning 2D Heterogeneous Channels for Charge‐Lock Enhanced Lithium Separation from Brine

Yaxin Hao, Xin Liu, Yaoling Zhang, Xin Zhang, Zhan Li, Ximeng Chen

2024Advanced Science28 citationsDOIOpen Access PDF

Abstract

Abstract The extraction of lithium (Li) from complex brines presents significant challenges due to the interference of competing ions, particularly magnesium (Mg 2 ⁺), which complicates the selective separation process. Herein, a strategy is introduced employing charge‐lock enhanced 2D heterogeneous channels for the rapid and selective uptake of Li⁺. This approach integrates porous ZnFe 2 O 4 /ZnO nanosheets into Ag + ‐modulated sub‐nanometer interlayer channels, forming channels optimized for Li⁺ extraction. The novelty lies in the charge‐lock mechanism, which selectively captures Mg 2 ⁺ ions, thereby facilitating the effective separation of Li from Mg. This mechanism is driven by a charge transfer during the formation of ZnFe 2 O 4 /ZnO, rendering O atoms in Fe‐O bonds more negatively charged. These negative charges strongly interact with the high charge density of Mg 2 ⁺ ions, enabling the charge‐locking mechanism and the targeted capture of Mg 2 ⁺. Optimization with Ag⁺ further improves interlayer spacing, increasing ion transport rates and addressing the swelling issue typical of 2D membranes. The resultant membrane showcases high water flux (44.37 L m⁻ 2 h⁻¹ bar⁻¹) and an impressive 99.8% rejection of Mg 2 ⁺ in real brine conditions, achieving a Li⁺/Mg 2 ⁺ selectivity of 59.3, surpassing existing brine separation membranes. Additionally, this membrane demonstrates superior cyclic stability, highlighting its high potential for industrial applications.

Topics & Concepts

BrineMembraneIonMaterials scienceConcentration polarizationChemical engineeringChemical physicsSelectivityNanotechnologyChemistryOrganic chemistryBiochemistryCatalysisEngineeringAdvancements in Battery MaterialsChemical Synthesis and CharacterizationExtraction and Separation Processes
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