MXenes公司
环境友好型
电池(电)
纳米技术
过程(计算)
计算机科学
背景(考古学)
生化工程
系统工程
材料科学
工程类
古生物学
功率(物理)
物理
操作系统
生物
量子力学
生态学
作者
Seonju Kim,Hyeonmin Jo,Jiyoung Yun,Seung‐Jun Lee,Jiung Cho,Kisuk Kang,Hee‐Dae Lim
标识
DOI:10.1186/s40580-025-00504-2
摘要
MXenes, a versatile family of two-dimensional (2D) transition metal carbides and nitrides, have attracted significant attention for battery applications due to their exceptional properties, such as high electronic conductivity, tunable microstructure, robust mechanical and chemical stability, and compositional diversity. However, despite these advantages, conventional MXene synthesis methods-relying heavily on toxic acid etching-pose serious environmental hazards, undermining their suitability for sustainable energy applications. In this context, eco-friendly and non-toxic MXene synthesis routes have become increasingly critical for enabling the widespread adoption of MXene, driving extensive research into alternative, green synthetic approaches. These recent advances in environmentally benign synthesis are pivotal to unlocking the full potential of MXenes for diverse next-generation battery technologies. In this review, we provide a comprehensive overview of green and sustainable MXene synthesis strategies, highlighting the latest developments that go beyond traditional fluorine-based routes. Each synthetic process is comparatively analyzed with respect to its efficacy, limitations, and implications for practical application as key functional components in lithium-ion batteries (LIBs) and post-LIB systems. Finally, we offer a perspective on how the development of eco-friendly MXenes can contribute to overcoming the industrial challenges facing advanced battery technologies.
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