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Thermal Runaway Prevention Through Scalable Fabrication of Safety Reinforced Layer in Practical Li-ion Batteries

Overview
Journal Nat Commun
Specialty Biology
Date 2024 Sep 27
PMID 39333098
Authors
In Taek Song
Joonkoo Kang
Jongkwan Koh
Hyunju Choi
Heemyeong Yang
Eunkyung Park
Jina Lee
Woohyung Cho
Yu-Mi Lee
Seokkyeong Lee
Noma Kim
Minah Lee
Kihwan Kim
Affiliations
Soon will be listed here.
Abstract

Integrating safety features to cut off excessive current during accidental internal short circuits in Li-ion batteries (LIBs) can reduce the risk of thermal runaway. However, making this concept practical requires overcoming challenges in both material development and scalable manufacturing. Here, we demonstrate the roll-to-roll production of a safety reinforced layer (SRL) on current collectors at a rate of 5 km per day. The SRL, made of molecularly engineered polythiophene (PTh) and carbon additives, interrupts current flow during voltage drops or overheating without adversely affecting battery performance. Impact testing on 3.4-Ah pouch cells shows that the SRL reduces battery explosions from 63% to 10%. This work underscores the potential of integrating material science with manufacturing technology to enhance battery safety.

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