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The failure problems, associated with capacity fade, poor cycle life, increased internal resistance, abnormal voltage, lithium plating, gas generation, electrolyte leakage, short circuit, battery deformation, thermal runaway, etc., are the fatal issues that restrict the performances and reliabilities of the lithium batteries. The main tasks of failure analysis of lithium batteries are to accurately diagnose, which is vital for revealing the failure modes or failure mechanisms. These information has profound significance for improving the performances and technology of lithium batteries. In order to have a comprehensive understanding of the recent progress on failure analysis research of lithium batteries, the failure analyses from the respect of definition, phenomenon, reason, analysis content, process, difficulty, etc. are briefly reviewed. We hope this review will helpful to the researchers engaged in the field of failure analysis as well as battery field.
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Keywords:
- lithium batteries /
- failure analysis
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[2] Wang S, Zhou G, Yu X Q, Li H 2017 Energ. Stor. Sci. Technol. 6 810 (in Chinese)[王朔, 周格, 禹习谦, 李泓 2017 储能科学与技术 6 810]
[3] Wang Q Y, Wang S, Zhang J N, Zheng J Y, Yu X Q, Li H 2017 Energ. Stor. Sci. Technol. 6 1008 (in Chinese)[王其钰, 王朔, 张杰男, 郑杰允, 禹习谦, 李泓 2017 储能科学与技术 6 1008]
[4] Wu J Y, Liu P, Hu Y S, Li H 2016 Energ. Stor. Sci. Technol. 5 443 (in Chinese)[吴娇杨, 刘品, 胡勇胜, 李泓 2016 储能科学与技术 5 443]
[5] Cao L, Sun C H, Yuan Z Z, Zhang R N, Su Y Z, Zhang S B, Zhang X H, Yu H G, Zheng J Y, Li H 2018 Energ. Stor. Sci. Technol. 7 148 (in Chinese)[曹林, 孙传灏, 袁中直, 张若楠, 苏育专, 张寿波, 张新河, 俞会根, 郑杰允, 李泓 2018 储能科学与技术 7 148]
[6] Cho J 2010 J. Mater. Chem. 20 4009
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[8] Yoshio M, Wang H, Fukuda K, Hara Y, Adachi Y 2000 J. Electrochem. Soc. 147 1245
[9] Kasnatscheew J, Placke T, Streipert B, Rothermel S, Wagner R, Meister P, Laskovic I C, Winter M 2017 J. Electrochem. Soc. 164 A2479
[10] Zhang D, Haran B, Durairajan A, White R E, Podrazhansky Y, Popov B N 2000 J. Power Sources 91 122
[11] Yoshida S, Okubo T, Masuo Y, Oba Y, Shibata D, Haruta M, Doi T, Inaba M 2017 Electrochemistry 85 403
[12] Kumai K, Miyashiro H, Kobayashi Y, Takei K, Ishikawa R 1999 J. Power Sources 81-82 715
[13] Zhang M, Liu L, Stefanopoulou A, Siegel J, Lu L, He X, Ouyang M 2017 J. Electrochem. Soc. 164 A2738
[14] Tao C H, Du N, Zhang W F 2006 Failure Analysis and Prevention 1 1 (in Chinese)[陶春虎, 杜楠, 张卫方 2006 失效分析与预防 1 1]
[15] Waldmann T, Iturrondobeitia A, Kasper M, Ghanbari N, Aguesse F, Bekaert E, Daniel L, Genies S, Gordon I J, Lble M W 2016 J. Electrochem. Soc. 163 A2149
[16] Wang Q Y, Chu G, Zhang J N, Wang Y, Zhou G, Nie K H, Zheng J Y, Yu X Q, Li H 2018 Energ. Stor. Sci. Technol. 7 327 (in Chinese)[王其钰, 褚赓, 张杰男, 王怡, 周格, 聂凯会, 郑杰允, 禹习谦, 李泓 2018 储能科学与技术 7 327]
[17] Xu Y, Hu E, Zhang K, Wang X, Borzenets V, Sun Z, Pianetta P, Yu X, Liu Y, Yang X Q 2017 ACS Energy Lett. 2 1240
[18] Finegan D P, Scheel M, Robinson J B, Tjaden B, Hunt I, Mason T J, Millichamp J, Di Michiel M, Offer G J, Hinds G 2015 Nat. Commun. 6 6924
[19] Gong Y, Zhang J, Jiang L, Shi J A, Zhang Q, Yang Z, Zou D, Wang J, Yu X, Xiao R, Hu Y S, Gu L, Li H, Chen L Q 2017 J. Am. Chem. Soc. 139 4274
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[1] Reddy (translated by Wang G Q) 2013 Linden's Handbook of Batteries (4th Ed.) (Beijing:Chemical Industry Press) (in Chinese)[雷迪 著 (汪继强 译) 2013 电池手册(第4版) (北京:化学工业出版社)]
[2] Wang S, Zhou G, Yu X Q, Li H 2017 Energ. Stor. Sci. Technol. 6 810 (in Chinese)[王朔, 周格, 禹习谦, 李泓 2017 储能科学与技术 6 810]
[3] Wang Q Y, Wang S, Zhang J N, Zheng J Y, Yu X Q, Li H 2017 Energ. Stor. Sci. Technol. 6 1008 (in Chinese)[王其钰, 王朔, 张杰男, 郑杰允, 禹习谦, 李泓 2017 储能科学与技术 6 1008]
[4] Wu J Y, Liu P, Hu Y S, Li H 2016 Energ. Stor. Sci. Technol. 5 443 (in Chinese)[吴娇杨, 刘品, 胡勇胜, 李泓 2016 储能科学与技术 5 443]
[5] Cao L, Sun C H, Yuan Z Z, Zhang R N, Su Y Z, Zhang S B, Zhang X H, Yu H G, Zheng J Y, Li H 2018 Energ. Stor. Sci. Technol. 7 148 (in Chinese)[曹林, 孙传灏, 袁中直, 张若楠, 苏育专, 张寿波, 张新河, 俞会根, 郑杰允, 李泓 2018 储能科学与技术 7 148]
[6] Cho J 2010 J. Mater. Chem. 20 4009
[7] Ravdel B, Abraham K M, Gitzendanner R, DiCarlo J, Lucht B, Campion C 2003 J. Power Sources 119-121 805
[8] Yoshio M, Wang H, Fukuda K, Hara Y, Adachi Y 2000 J. Electrochem. Soc. 147 1245
[9] Kasnatscheew J, Placke T, Streipert B, Rothermel S, Wagner R, Meister P, Laskovic I C, Winter M 2017 J. Electrochem. Soc. 164 A2479
[10] Zhang D, Haran B, Durairajan A, White R E, Podrazhansky Y, Popov B N 2000 J. Power Sources 91 122
[11] Yoshida S, Okubo T, Masuo Y, Oba Y, Shibata D, Haruta M, Doi T, Inaba M 2017 Electrochemistry 85 403
[12] Kumai K, Miyashiro H, Kobayashi Y, Takei K, Ishikawa R 1999 J. Power Sources 81-82 715
[13] Zhang M, Liu L, Stefanopoulou A, Siegel J, Lu L, He X, Ouyang M 2017 J. Electrochem. Soc. 164 A2738
[14] Tao C H, Du N, Zhang W F 2006 Failure Analysis and Prevention 1 1 (in Chinese)[陶春虎, 杜楠, 张卫方 2006 失效分析与预防 1 1]
[15] Waldmann T, Iturrondobeitia A, Kasper M, Ghanbari N, Aguesse F, Bekaert E, Daniel L, Genies S, Gordon I J, Lble M W 2016 J. Electrochem. Soc. 163 A2149
[16] Wang Q Y, Chu G, Zhang J N, Wang Y, Zhou G, Nie K H, Zheng J Y, Yu X Q, Li H 2018 Energ. Stor. Sci. Technol. 7 327 (in Chinese)[王其钰, 褚赓, 张杰男, 王怡, 周格, 聂凯会, 郑杰允, 禹习谦, 李泓 2018 储能科学与技术 7 327]
[17] Xu Y, Hu E, Zhang K, Wang X, Borzenets V, Sun Z, Pianetta P, Yu X, Liu Y, Yang X Q 2017 ACS Energy Lett. 2 1240
[18] Finegan D P, Scheel M, Robinson J B, Tjaden B, Hunt I, Mason T J, Millichamp J, Di Michiel M, Offer G J, Hinds G 2015 Nat. Commun. 6 6924
[19] Gong Y, Zhang J, Jiang L, Shi J A, Zhang Q, Yang Z, Zou D, Wang J, Yu X, Xiao R, Hu Y S, Gu L, Li H, Chen L Q 2017 J. Am. Chem. Soc. 139 4274
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