Proceedings of the International Conference on Industrial Design and Environmental Engineering, IDEE 2023, November 24–26, 2023, Zhengzhou, China

Research Article

Research Progress on MXene Nanomaterials for Organic Pollutants Removal

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  • @INPROCEEDINGS{10.4108/eai.24-11-2023.2343437,
        author={Xingqi  Huang and Lingce  Kong and Wencai  Xu and Haibo  Wang and Wenming  Chen and Jingjing  Zhang and Min  Qi and Yanjun  Zuo},
        title={Research Progress on MXene Nanomaterials for  Organic Pollutants Removal },
        proceedings={Proceedings of the International Conference on Industrial Design and Environmental Engineering, IDEE 2023, November 24--26, 2023, Zhengzhou, China},
        publisher={EAI},
        proceedings_a={IDEE},
        year={2024},
        month={2},
        keywords={mxene organic pollutants adsorption catalysis},
        doi={10.4108/eai.24-11-2023.2343437}
    }
    
  • Xingqi Huang
    Lingce Kong
    Wencai Xu
    Haibo Wang
    Wenming Chen
    Jingjing Zhang
    Min Qi
    Yanjun Zuo
    Year: 2024
    Research Progress on MXene Nanomaterials for Organic Pollutants Removal
    IDEE
    EAI
    DOI: 10.4108/eai.24-11-2023.2343437
Xingqi Huang1, Lingce Kong1, Wencai Xu1, Haibo Wang1, Wenming Chen1, Jingjing Zhang1, Min Qi1, Yanjun Zuo1,*
  • 1: Research Institute of Chemical Defense
*Contact email: zyj1688@sina.com

Abstract

A new family of two dimensional (2D) carbides, nitrides and carbonitrides, intituled MXenes, sprung up since 2011. In possession of good hydrophilicity, controllable surface properties, excellent electrical conductivity and magnetic properties, it has been diffusely used in miscellaneous fields, such as energy storage, catalysis, medicine, adsorption and so on. At present, MXenes are primarily prepared through hydrofluoric acid, fluoride salts, alkali, and electrochemical etching, and chemical vapor deposition. The advantages and disadvantages of diversiform preparation methods are elaborated, and the application research progress on organic pollutants removal in recent years is illustrated. The adsorption and catalytic degradation mechanisms of MXenebased materials are analyzed. Moreover, difficulties and application strategies for the further development of MXene are described, which will provide the basis for its practical application in environmental pollutants.