摘要
Batteries have experienced rapid development due to their outstanding energy storage performance and widespread applications.This progress has driven advancements in electric vehicles,energy storage systems,and portable electronic devices,while also increasing demand for lightweight designs,high energy density,and environmental sustainability[1].However,traditional rigid batteries face significant challenges related to mechanical flexibility,safety,and environmental impact,making them unsuitable for the unique requirements of these emerging applications[2].Consequently,flexible fiber batteries have emerged,leveraging innovations in materials and structural design to offer energy solutions capable of bending,stretching,and adapting to various complex shapes.These batteries hold great potential in applications such as wearable devices[3],flexible electronics[4],smart textiles[5,6],and biomedical devices[7].Traditional lithium-ion batteries are widely used due to their high energy density and long cycle life.
基金
supported by the National Natural Science Foundation of China(U21A2095)
the Key Research and Development Program of Hubei Province(2021BAA068 and2020DGC003)。
作者简介
干林丽,received her Ph.D.degree in Textile Science and Engineering from Deakin University,Australia,and completed postdoctoral work at the Department of Chemistry,Tsinghua University,China.She currently joined the State Key Laboratory of NewTextile Materials and Advanced Processing Technologies,Wuhan Textile University.Her current research interest mainly focuses on the design of multifunctional electronic textiles;Corresponding authors:蔡光明,obtainedhis Ph.D.degree in Textile Materials and Textile Design from Donghua University in 2010 and joined Wuhan Textile University in the same year.His recent work focuses on the large-scale fabrication of smart yarn via spinning and yarn-based Etextiles,E-mail addresses:guangmingcai2006@163.com;Corresponding authors:徐卫林,is an Academician of the Chinese Academy of Engineering and the President of Wuhan Textile University.He is also serving as the director of the State Key Laboratory of New Textile Materials and Advanced Processing Technologies at Wuhan Textile University.His research interest includes advanced functional materials,smart textiles,advanced spinning technologies and high-performance fiber materials,E-mail addresses:weilin_xu@wtu.edu.cn。
