Mechanical abuse simulation and effect of graphene oxides on thermal runaway of lithium ion batteries

Cuiying Dai; Xiaoxue Zhu; Junan Pan; Xiangbiao Liao; Yong Pan

doi:10.20964/2019.04.39

Mechanical abuse simulation and effect of graphene oxides on thermal runaway of lithium ion batteries

Cuiying Dai, Xiaoxue Zhu, Junan Pan, Xiangbiao Liao, Yong Pan^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

The challenge of suppressing thermal runaway in lithium ion batteries (LIBs) under thermal and mechanical abuses is critical in practice applications. The graphene oxides (GOs) modified LiNi _0.5 Mn _0.3 Co _0.2 O ₂ (NMC532) active materials were prepared on aluminum foil by the coating method. Effect of different ratios of the GOs on the electrochemical cycling performance of the coin-cells was discussed. GOs affect the specific capacity of the half-cells, but they are helpful for improving the cycle stabilities of the cells. The contributions of GOs modified NMC532 cathodes on suppressing thermal runaway of LIBs were studied by nail penetration tests, impact tests and scratch tests, respectively. The temperature distribution on the coin-cell surface was in-situ monitored by FLIR infrared camera technique during nail penetration tests. The residual surface morphology of the cathodes were observed by scanning electron microscopy after impact and scratch tests. All results indicate that GOs play an important role in inducing cracking nucleation, raising internal impedance and restraining heat generation when the internal shorting occurs in LIBs.

Original language	English
Pages (from-to)	3363-3374
Number of pages	12
Journal	International Journal of Electrochemical Science
Volume	14
Issue number	4
DOIs	https://doi.org/10.20964/2019.04.39
Publication status	Published - 1 Apr 2019
Externally published	Yes

Keywords

Graphene oxides
Impact test
Nail penetration test
Scratch test
Thermal runaway

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.20964/2019.04.39

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Dai, C., Zhu, X., Pan, J., Liao, X., & Pan, Y. (2019). Mechanical abuse simulation and effect of graphene oxides on thermal runaway of lithium ion batteries. International Journal of Electrochemical Science, 14(4), 3363-3374. https://doi.org/10.20964/2019.04.39

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title = "Mechanical abuse simulation and effect of graphene oxides on thermal runaway of lithium ion batteries",

abstract = " The challenge of suppressing thermal runaway in lithium ion batteries (LIBs) under thermal and mechanical abuses is critical in practice applications. The graphene oxides (GOs) modified LiNi 0.5 Mn 0.3 Co 0.2 O 2 (NMC532) active materials were prepared on aluminum foil by the coating method. Effect of different ratios of the GOs on the electrochemical cycling performance of the coin-cells was discussed. GOs affect the specific capacity of the half-cells, but they are helpful for improving the cycle stabilities of the cells. The contributions of GOs modified NMC532 cathodes on suppressing thermal runaway of LIBs were studied by nail penetration tests, impact tests and scratch tests, respectively. The temperature distribution on the coin-cell surface was in-situ monitored by FLIR infrared camera technique during nail penetration tests. The residual surface morphology of the cathodes were observed by scanning electron microscopy after impact and scratch tests. All results indicate that GOs play an important role in inducing cracking nucleation, raising internal impedance and restraining heat generation when the internal shorting occurs in LIBs.",

keywords = "Graphene oxides, Impact test, Nail penetration test, Scratch test, Thermal runaway",

author = "Cuiying Dai and Xiaoxue Zhu and Junan Pan and Xiangbiao Liao and Yong Pan",

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AU - Dai, Cuiying

AU - Zhu, Xiaoxue

AU - Pan, Junan

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AU - Pan, Yong

PY - 2019/4/1

Y1 - 2019/4/1

N2 - The challenge of suppressing thermal runaway in lithium ion batteries (LIBs) under thermal and mechanical abuses is critical in practice applications. The graphene oxides (GOs) modified LiNi 0.5 Mn 0.3 Co 0.2 O 2 (NMC532) active materials were prepared on aluminum foil by the coating method. Effect of different ratios of the GOs on the electrochemical cycling performance of the coin-cells was discussed. GOs affect the specific capacity of the half-cells, but they are helpful for improving the cycle stabilities of the cells. The contributions of GOs modified NMC532 cathodes on suppressing thermal runaway of LIBs were studied by nail penetration tests, impact tests and scratch tests, respectively. The temperature distribution on the coin-cell surface was in-situ monitored by FLIR infrared camera technique during nail penetration tests. The residual surface morphology of the cathodes were observed by scanning electron microscopy after impact and scratch tests. All results indicate that GOs play an important role in inducing cracking nucleation, raising internal impedance and restraining heat generation when the internal shorting occurs in LIBs.

AB - The challenge of suppressing thermal runaway in lithium ion batteries (LIBs) under thermal and mechanical abuses is critical in practice applications. The graphene oxides (GOs) modified LiNi 0.5 Mn 0.3 Co 0.2 O 2 (NMC532) active materials were prepared on aluminum foil by the coating method. Effect of different ratios of the GOs on the electrochemical cycling performance of the coin-cells was discussed. GOs affect the specific capacity of the half-cells, but they are helpful for improving the cycle stabilities of the cells. The contributions of GOs modified NMC532 cathodes on suppressing thermal runaway of LIBs were studied by nail penetration tests, impact tests and scratch tests, respectively. The temperature distribution on the coin-cell surface was in-situ monitored by FLIR infrared camera technique during nail penetration tests. The residual surface morphology of the cathodes were observed by scanning electron microscopy after impact and scratch tests. All results indicate that GOs play an important role in inducing cracking nucleation, raising internal impedance and restraining heat generation when the internal shorting occurs in LIBs.

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KW - Scratch test

KW - Thermal runaway

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Mechanical abuse simulation and effect of graphene oxides on thermal runaway of lithium ion batteries

Abstract

Keywords

UN SDGs

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