Diagnosis of Current Flow Patterns Inside Fault‐Simulated Li‐Ion Batteries via Non‐Invasive, <i>In Operando</i> Magnetic Field Imaging

Lee, Mingyu; Shin, Yewon; Chang, Hongjun; Jin, Dahee; Lee, Hyuntae; Lim, Minhong; Seo, Jiyeon; Band, Tino; Kaufmann, Kai; Moon, Janghyuk; Lee, Yong Min; Lee, Hongkyung

doi:10.1002/smtd.202300748

Small Methods

2023

DOI: 10.1002/smtd.202300748

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Diagnosis of Current Flow Patterns Inside Fault‐Simulated Li‐Ion Batteries via Non‐Invasive, In Operando Magnetic Field Imaging

Mingyu Lee,

Yewon Shin,

Hongjun Chang

et al.

Abstract: With the growing popularity of Li‐ion batteries in large‐scale applications, building a safer battery has become a common goal of the battery community. Although the small errors inside the cells trigger catastrophic failures, tracing them and distinguishing cell failure modes without knowledge of cell anatomy can be challenging using conventional methods. In this study, a real‐time, non‐invasive magnetic field imaging (MFI) analysis that can signal the battery current‐induced magnetic field and visualize the … Show more

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Cited by 6 publications

References 46 publications

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Magnetic Field‐Based Non‐Destructive Testing Techniques for Battery Diagnostics

Zhao,

Wan,

Lin

et al. 2024

Advanced Energy Materials

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With the widespread application of batteries in modern society, ensuring their safety and performance has become crucial. Traditional diagnostic methods, while providing valuable insights into battery performance, often require destructive sampling, making it difficult to achieve non‐destructive and real‐time monitoring. As a result, magnetic field‐based non‐destructive testing techniques, such as nuclear magnetic resonance (NMR), magnetic resonance imaging (MRI), and magnetic field imaging (MFI), have emerged as powerful tools for battery diagnostics. These techniques have garnered significant attention due to their non‐invasive nature and real‐time detection capabilities, allowing for the identification of defects and malfunctions under normal operating conditions without disassembling the battery or interrupting its use. This paper reviews recent advancements in the application of magnetic field‐based non‐destructive testing technologies for battery diagnostics, analyzing both their strengths and limitations. Through a comprehensive assessment of current research findings, this work provides researchers and engineers with a systematic reference to promote the application and development of magnetic field technologies in the battery field. Additionally, this review discusses the challenges and limitations encountered by magnetic field technologies in battery diagnostics and provides recommendations for their future development. The objective is to offer insights and foster continued innovation and advancement in this field.

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Magnetic Field‐Based Non‐Destructive Testing Techniques for Battery Diagnostics

Zhao,

Wan,

Lin

et al. 2024

Advanced Energy Materials

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Simulation-Trained Neural Networks for Automatable Crack Detection in Magnetic Field Images

Band,

Karrasch,

Patzold

et al. 2024

J Nondestruct Eval

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Predictive modeling of lithium-ion battery degradation: Incorporating SEI layer growth and mechanical stress factors

Chung,

Kim,

Bae

et al. 2024

J Mech Sci Technol

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Diagnosis of Current Flow Patterns Inside Fault‐Simulated Li‐Ion Batteries via Non‐Invasive, In Operando Magnetic Field Imaging

Cited by 6 publications

References 46 publications

Magnetic Field‐Based Non‐Destructive Testing Techniques for Battery Diagnostics

Magnetic Field‐Based Non‐Destructive Testing Techniques for Battery Diagnostics

Simulation-Trained Neural Networks for Automatable Crack Detection in Magnetic Field Images

Predictive modeling of lithium-ion battery degradation: Incorporating SEI layer growth and mechanical stress factors

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