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黏土矿物膜的制备及其功能化应用的研究进展

TANG Miao SHI Wei LUO Ting DONG Gang CHEN Yunxia SU Xiaoli WANG Tingting XIONG Chengrong ZHOU Hexiang WU Yuanfa LI Kun OUYANG Ruifeng ZHOU Tianxiang ZENG Tao

陶瓷学报2025，Vol.46Issue(6)：1132-1145,14.

陶瓷学报2025，Vol.46Issue(6)：1132-1145,14.DOI:10.13957/j.cnki.tcxb.2025.06.003

黏土矿物膜的制备及其功能化应用的研究进展

Research Progress in Preparation and Functionalization Applications of Clay Mineral Films

TANG Miao ¹SHI Wei ²LUO Ting ³DONG Gang ³CHEN Yunxia ³SU Xiaoli ³WANG Tingting ¹XIONG Chengrong ¹ZHOU Hexiang ¹WU Yuanfa ¹LI Kun ¹OUYANG Ruifeng ¹ZHOU Tianxiang ¹ZENG Tao³

作者信息

1. School of Materials Science and Engineering,Jingdezhen Ceramic University,Jingdezhen 333403,Jiangxi,China
2. School of Materials Science and Engineering,Jingdezhen Ceramic University,Jingdezhen 333403,Jiangxi,China||Jingdezhen Key Laboratory of Environmental Ceramic Materials,Jingdezhen 333403,Jiangxi,China
3. School of Materials Science and Engineering,Jingdezhen Ceramic University,Jingdezhen 333403,Jiangxi,China||Jingdezhen Key Laboratory of Environmental Ceramic Materials,Jingdezhen 333403,Jiangxi,China||Jiangxi Key Laboratory of Advanced Ceramic Materials,Jingdezhen 333403,Jiangxi,China
折叠

摘要

Abstract

[Significance]Clay mineral membranes,derived from naturally abundant layered silicates,such as montmorillonite,vermiculite and kaolinite,have emerged as a revolutionary class of functional materials,due to their unique structural and physicochemical properties.These membranes exhibit high specific surface areas,tunable nanochannels,exceptional chemical stability and environmental compatibility,making them highly promising for applications in water purification,molecular separation,ion transport and energy conversion.The inherent cation-exchange capacity,self-repairing ability and surface wettability modulation further enhance their adaptability in complex environments.However,challenges,such as scalability in fabrication,long-term stability under harsh conditions and precise control over nanoscale functionalities,necessitate systematic research to unlock their full potential. [Progress]This paper is beginned with an overview of preparation methods for clay mineral nanosheets,encompassing mechanical exfoliation,chemical exfoliation and liquid-phase exfoliation techniques.Subsequently,fabrication approaches for clay mineral membranes were systematically reviewed,including casting,dip-coating,spray-coating,vacuum filtration,electrophoretic deposition and 3D printing,while evaluating their advantages and limitations.For instance,vacuum filtration,the most widely adopted method,enables facile fabrication of smooth well-laminated membranes,but is restricted to liquid suspensions and may induce disordered stacking of nanosheets during thick-film preparation.Subsequently,the distinctive functional properties of clay mineral membranes are thoroughly evaluated.(1)Surface wettability can be modulated via ion exchange,chemical functionalization and environmental conditions.(2)Permeability,governed by particle size,pore architecture,and interlayer structure,is tunable through chemical strategies such as crosslinking agents and cation intercalation.(3)Swelling resistance is enhanced via acid modification,cation crosslinking and nanoscale reinforcement to mitigate hydration-induced layer expansion.(4)Self-healing mechanisms enable physical and ionic conductivity restoration.Furthermore,recent advancements in applications are highlighted,particularly in molecular sieving,pollutant removal,ion-selective transport,and nanofluidic energy harvesting. [Conclusions and prospects]As a class of 2D nanomaterials derived from natural layered silicates and clay mineral membranes demonstrate remarkable structural tunability,high surface area and eco-friendly characteristics,positioning them as promising candidates for industrial wastewater treatment,desalination and precision separation.Despite significant progress in fabrication and structural engineering,critical challenges remain,such as controllable synthesis of homogeneous nanosheets with minimized defects and tailored interlayer charge distribution,scalable production for industrial deployment,long-term stability under extreme operational conditions,necessitating advanced anti-swelling strategies.Future efforts should focus on optimizing nanosheet exfoliation,developing cost-effective large-scale fabrication techniques and elucidating degradation mechanisms to advance their practical implementation.With continued innovation,clay mineral membranes are poised to bridge the gap between laboratory-scale research and real-world environmental and energy applications.

关键词

黏土矿物膜/层状膜/二维纳米片/离子传输/分子分离

Key words

clay mineral membranes/layered membranes/2D nanosheets/ion transport/molecular separation

分类

化学化工

引用本文复制引用

TANG Miao,SHI Wei,LUO Ting,DONG Gang,CHEN Yunxia,SU Xiaoli,WANG Tingting,XIONG Chengrong,ZHOU Hexiang,WU Yuanfa,LI Kun,OUYANG Ruifeng,ZHOU Tianxiang,ZENG Tao..黏土矿物膜的制备及其功能化应用的研究进展[J].陶瓷学报,2025,46(6):1132-1145,14.

基金项目

江西省教育厅科学技术研究项目(GJJ150903) （GJJ150903）

景德镇市科技计划项目(20202GYZD013-16,20234SF002) （20202GYZD013-16,20234SF002）

广东省重点实验室项目(GLMPM-045) （GLMPM-045）

江西省国际科技合作项目(20212BDH80005). （20212BDH80005）

陶瓷学报

OA北大核心

ISSN：2095-784X

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