MXenes的制备、结构调控及电化学储能应用  被引量：1

作　　者：管可可 雷文 童钊明 刘海鹏 张海军[1] Keke Guan;Wen Lei;Zhaoming Tong;Haipeng Liu;Haijun Zhang(The State Key Laboratory of Refractories and Metallurgy,Wuhan University of Science and Technology,Wuhan 430081,China)

机构地区：[1]武汉科技大学省部共建耐火材料与冶金国家重点实验室,武汉430081

出　　处：《化学进展》2022年第3期665-682,共18页Progress in Chemistry

摘　　要：MXenes因其独特的二维层状结构、较高的比表面积、优异的导电性、良好的表面亲水性和化学稳定性,受到国内外研究者的广泛关注。近年来,研究者普遍采用含氟刻蚀剂(HF与LiF-HCl等)选择性刻蚀MAX相中的A位元素,制备带有丰富表面基团的多层MXenes材料。由于含氟刻蚀剂的污染问题,当前采用更为绿色环保的无氟刻蚀剂(NaOH与ZnCl_(2)等)刻蚀MAX相的研究报道越来越多。MXenes的性能与其结构密切相关,不同制备方法对MXenes的层间距和表面基团的影响很大,进而也影响其性能。基于此,本文总结对比了文献中MXenes的制备方法,概述了MXenes层间距和表面基团的调控方法,同时介绍了MXenes在电化学储能方面的应用,最后对今后MXenes研究所面临的挑战和发展方向进行了展望。MXenes have attracted intensive research attention owing to its unique two-dimensional layered structure, high specific surface area, excellent conductivity, superior surface hydrophilicity and chemical stability. In recent years, selectively etching the A element layers from MAX phases by fluoride-containing etchants (HF, LiF-HCl, etc) is a common method to prepare multilayer MXenes with plentiful surface terminations. Due to the pollution problems of fluoride-containing etchants, at present, many studies have been reported on the use of more green and environmentally friendly fluorine-free etchants (NaOH, ZnCl_(2), etc) to etch MAX phases. The properties of MXenes are closely related to its structure. Additionally, it is found that the preparation methods have great impacts on the layer spacing and surface terminations of MXenes, consequently affecting its performance. Hence, this paper summarizes and compares the research progress of the preparation strategies, layer spacing and surface terminations regulation of MXenes. Then the applications of MXenes in electrochemical energy storage are outlined. Finally, the challenges and prospects for the future development of MXenes are also proposed.

关 键 词：MAX相 选择性刻蚀 MXenes 结构调控 电化学储能 

分 类 号：O646[理学—物理化学] TB34[理学—化学]