Flexible Sensors for Battery Health Monitoring

电池(电) 计算机科学 适应性 健康状况 可靠性(半导体) 系统工程 领域(数学) 状态监测 工程类 嵌入式系统 能量(信号处理) 国家(计算机科学) 安全监测 工作(物理) 可靠性工程 本质安全 高效能源利用 储能 结构健康监测 新兴技术 汽车工程 可靠性 大数据 仪表(计算机编程) 锂电池
作者
Xin Wang,Haiyan Zhang,Xinyi Qi,Sheng Chen,Zekai Huang,Jinwei Zhao,Yihang Wang,Dezhi Wu,Gaofeng Zheng,Chenyang Xue,Jianlin Zhou,Hailong Wang,Zongyou Yin,Libo Gao
出处
期刊:Nano-micro Letters [Springer Science+Business Media]
卷期号:18 (1): 154-154 被引量:1
标识
DOI:10.1007/s40820-025-01999-4
摘要

With the widespread application of lithium batteries in electric vehicles and energy storage systems, battery-related safety and reliability issues have become increasingly prominent. Conventional monitoring methods often struggle to address dynamic changes under complex operando. In recent years, flexible sensing technology has emerged as a promising solution for battery health monitoring due to its high adaptability and conformability to complex structures. Meanwhile, empowered by artificial intelligence (AI) for data analysis, the collected data enables efficient and accurate state assessment, offering robust support for accident prevention. Against this background, this paper first explores the integrated applications of flexible sensors in battery health monitoring and their unique advantages in addressing complex battery operating conditions, while analyzing the potential of AI in battery state analysis. Subsequently, it systematically reviews mainstream flexible sensing technologies (e.g., film sensors, thermocouples, and optical fiber sensors), elucidating their mechanisms for revealing intricate internal battery processes during operation. Finally, the paper discusses AI's role in enhancing monitoring efficiency and accuracy, and envisions future research directions and application prospects. This work aims to provide technical references for the battery health monitoring field as well as promote the application of flexible sensing technologies in improving battery system safety and reliability.
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