Rapid thermal runaway detection of lithium-ion battery via swelling-based state-of-charge monitoring using piezoresistive sponge sensor
- Authors
- Bang, Joohyung; Chun, Byungkwon; Kim, Minhyeok; Lim, Jaeyoung; Han, Yongha; So, Hongyun
- Issue Date
- May-2025
- Publisher
- Elsevier
- Keywords
- SOC monitoring; Piezoresistive sensor; Diagnosis; Thermal runaway; Early detection; Battery swelling
- Citation
- eTransportation, v.24, pp 1 - 13
- Pages
- 13
- Indexed
- SCIE
SCOPUS
- Journal Title
- eTransportation
- Volume
- 24
- Start Page
- 1
- End Page
- 13
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206834
- DOI
- 10.1016/j.etran.2025.100404
- ISSN
- 2590-1168
2590-1168
- Abstract
- The early detection of thermal runaway (TR) and the accurate monitoring of the state of lithium-ion batteries (LIBs) are exceptionally critical in large-capacity applications. However, achieving both practicality and effective sensing capability for module-level LIB state diagnosis remains a challenge. Herein, we developed a swellingbased module-applicable rapid TR detection system using sponge-type piezoresistive swelling sensor. The unique feature of the sensor with inter-layer contact under high compression facilitates practical swelling detection with its high sensitivity (3.90 kPa(- 1)), durability, outstanding stability, near-zero hysteresis, and a high sensing resolution (<10 mu m) even under pre-compression. Based on its excellent scalability, pouch cell-level, prismatic cell-level, and module-level reversible swelling monitoring of LIBs in constrained structures were successfully validated under various operating conditions, with the swelling signal exhibiting a strong correlation with the state of charge (SOC). Finally, on the basis of reaction mechanism of TR and the swelling sensor signal, the module-level early TR detection occurs 1357 s before explosion. These results imply reliable LIB monitoring systems with substantial practicality using swelling sensors for enhanced TR detection of large-capacity LIB applications.
The early detection of thermal runaway (TR) and the accurate monitoring of the state of lithium-ion batteries (LIBs) are exceptionally critical in large-capacity applications. However, achieving both practicality and effective sensing capability for module-level LIB state diagnosis remains a challenge. Herein, we developed a swellingbased module-applicable rapid TR detection system using sponge-type piezoresistive swelling sensor. The unique feature of the sensor with inter-layer contact under high compression facilitates practical swelling detection with its high sensitivity (3.90 kPa− 1),, durability, outstanding stability, near-zero hysteresis, and a high sensing resolution (<10 μm) even under pre-compression. Based on its excellent scalability, pouch cell-level, prismatic cell-level, and module-level reversible swelling monitoring of LIBs in constrained structures were successfully validated under various operating conditions, with the swelling signal exhibiting a strong correlation with the state of charge (SOC). Finally, on the basis of reaction mechanism of TR and the swelling sensor signal, the module-level early TR detection occurs 1357 s before explosion. These results imply reliable LIB monitoring systems with substantial practicality using swelling sensors for enhanced TR detection of large-capacity LIB applications.
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