制备用于可见光驱动光催化的二元g-C3N4/MXene复合材料的新策略

Asieh Akhoondi, M. Mirzaei, M. Nassar, Z. Sabaghian, Farshid Hatami, M. Yusuf
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引用次数: 6

摘要

近年来,g-C3N4@MXene光催化剂因其特殊的组成和优异的性能而备受关注。由过渡金属碳化物、氮化物和源自MAX相的碳氮化物组成的MXenes在各种光催化过程中用作助催化剂或g-C3N4 (GCN)负载复合材料,以加速其异质结结构的载流子分离。g-C3N4@MXene纳米复合材料除了具有较高的光吸收能力外,在析氢、废水处理、固氮、NO处理、氧化还原光反应等过程中具有较高的抗光腐蚀性能。本文综述了无贵金属g-C3N4@MXene纳米复合材料的制备和应用的最新进展和新技术,并展望了其未来的发展方向,以应对能源和环境方面的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New strategies in the preparation of binary g-C3N4/MXene composites for visible-light-driven photocatalytic applications
In recent years, g-C3N4@MXene photocatalysts have received much attention due to their special composition and excellent properties. MXenes consisting of transition metal carbides, nitrides, and carbonitrides derived from the MAX phase are used as cocatalysts or g-C3N4 (GCN) supporting composites in a variety of photocatalytic processes that accelerate the separation of charge carriers with their heterojunction structure. In addition to the high ability of g-C3N4@MXene nanocomposite to absorb light, it has high photocorrosion resistance in the processes of hydrogen evolution, wastewater treatment, nitrogen fixation, NO treatment, and oxidation and reduction photoreactions. In this review, the latest developments and new technologies for the manufacture and application of noble metal-free g-C3N4@MXene nanocomposite have been discussed and the future perspective has been drawn to deal with challenges related to energy and the environment.
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