西北工程技术学报2024,Vol.23Issue(3):206-213,8.
3D打印技术在电化学储能电池中的研究进展
Research Progress of 3D Printing Technology in Electrochemical Energy Storage Batteries
摘要
Abstract
Energy storage is one of the pressing problems that need to be addressed in the rapidly developing society today,with electrochemical energy storage being a critical focus.However,traditional electrochemical energy storage technologies often incur high costs during construction and operation,and their energy storage duration and energy density are limited,which no longer meet the high demands for energy in modern society.Therefore,researching novel batteries with high energy density and high quality load is a top priority.3D printing technology,as a novel additive manufacturing technique that builds complex three-dimensional structures layer by layer,has garnered widespread attention and application.Unlike traditional manufacturing techniques,3D printing technology features low cost,simple operation,high efficiency,and easy customization,providing a broad development prospect for the preparation of electrochemical energy storage batteries.This paper provides an overview of commonly used 3D printing technologies for electrochemical energy storage,the various components of 3D printed batteries(including electrodes,current collectors,and electrolytes),the materials used in 3D printing applications for all-solid-state batteries,as well as their electrochemical performance and application effects.The limitations of current 3D printed batteries are highlighted,and the future development trends are eagerly anticipated,aiming to provide valuable insights for this rapidly evolving field.关键词
3D打印技术/电池/电极材料/集流器/电解质/电化学性能Key words
3D printing technology/battery/electrode material/current collector/electrolyte/electrochemical perfor-mance分类
动力与电气工程引用本文复制引用
刘晓艺,李海波,马品..3D打印技术在电化学储能电池中的研究进展[J].西北工程技术学报,2024,23(3):206-213,8.基金项目
宁夏重点研发计划项目(2023BSB03071 ()
2021BEE03006) ()
