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Kevlar Aerogel‐Confined Functional Liquid‐Based Composite Membrane Enables Dynamic Uranium Capture

Zhizhi Sheng, Ying Sun, Yinglai Hou, Zengwei Liu, Jing Lyu, Lishan Li, Zhaochuan Fan, Xuetong Zhang

2024Advanced Functional Materials15 citationsDOI

Abstract

Abstract Solid–liquid composite materials that confine a functional liquid within a porous solid have appeared in a wealth of emerging applications. However, creating dynamic liquid interfaces for efficient ion capture while stably retaining functional liquid in porous confinements is challenging. Here, an aerogel‐confined liquid‐based composite membrane (ALCM) for dynamic and highly efficient uranium capture is reported. As a proof of concept, Kevlar aerogel membrane is selected as the nanoporous solid, and calix[6]arene/tributyl phosphate (C6/TBP) is used as the guest liquid. The obtained ALCMs possess high stability, optimum adhesion between solid‐liquid interface, and high selectivity for uranyl ions (250–6510 times over other competing ions). Different dynamic interface regulating approaches are explored for ALCMs, and uranium extraction efficiency under alternating pressures can be up to 258.48 mg g −1 h −1 , outperforming many reported uranium capture materials. This strategy can be applicable to develop a rich family of solid‐liquid composite materials and may spearhead a new paradigm for uranium capture from sustainable seawater resources.

Topics & Concepts

AerogelMaterials scienceKevlarComposite numberMembraneUraniumChemical engineeringComposite materialNanotechnologyMetallurgyGeneticsEngineeringBiologyCatalytic Processes in Materials ScienceRadioactive element chemistry and processingCovalent Organic Framework Applications
Kevlar Aerogel‐Confined Functional Liquid‐Based Composite Membrane Enables Dynamic Uranium Capture | Litcius