Yuxiao Zhou, Yali Zhang*, Kunpeng Ruan, Hua Guo, Mukun He, Hua Qiu and Junwei Gu*. MXene-based fibers: preparation, applications, and prospects. Science Bulletin, 2024, DOI: 10.1016/j.scib.2024.07.009. 2023IF=18.8.(1區綜合類Top期刊,中國科技期刊卓越行動計劃-領軍類期刊項目)
https://doi.org/10.1016/j.scib.2024.07.009
Abstract
With the vigorous development and huge demand for portable wearable devices, wearable electronics based on functional fibers continue to emerge in a wide range of energy storage, motion monitoring, disease prevention, electromagnetic interference (EMI) shielding, etc. MXene, as an emerging two-dimensional inorganic compound, has shown great potential in functional fiber manufacturing and has attracted much research attention due to its own good mechanical properties, high electrical conductivity, excellent electrochemical properties and favorable processability. Herein, this paper reviews recent advances of MXene-based fibers. Speaking to MXene dispersions, the properties of MXene dispersions including dispersion stability, rheological properties and liquid crystalline properties are highlighted. The preparation techniques used to produce MXene-based fibers and application progress regarding MXene-based fibers into supercapacitors, sensors, EMI shielding and Joule heaters are summarized. Challenges and prospects surrounding the development of MXene-based fibers are proposed in future. This review aims to provide processing guidelines for MXene-based fiber manufacturing, thereby achieving more possibilities of MXene-based fibers in advanced applications with a view to injecting more vitality into the field of smart wearables.
隨著便攜式可穿戴設備的蓬勃發展和巨大需求,基于功能纖維的可穿戴電子產品不斷涌現,并廣泛應用于能量儲存、運動監測、疾病預防、電磁屏蔽等領域。MXene是一種新興的二維無機化合物,具有優越的力學性能、導電性能、電化學性能和加工性能,在功能纖維制造方面展現出巨大的發展前景,備受研究者的關注和青睞。該文綜述了MXene基纖維的最新進展,從MXene分散體的制備入手,重點討論了MXene分散體的分散穩定性、流變性和液晶性等特征,全面總結了MXene基纖維的制備加工技術,并闡述了MXene基纖維在超級電容器、傳感器、電磁屏蔽和焦耳加熱器等應用領域的發展現狀,指出了MXene基纖維面臨的挑戰與前景展望。該綜述旨在為制造MXene基纖維提供加工指南,提升MXene基纖維在先進應用中的更多可能性,為智能可穿戴領域注入更多活力。
作者郵箱
周宇霄:m13572007138@163.com
張雅莉:yalizhang@nwpu.edu.cn