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Correlation between manganese dissolution and dynamic phase stability in spinel-based lithium-ion battery

by Ma, Lu , Ren, Yang , Shahbazian-Yassar, Reza , Xiao, Yinguo , Liu, Tongchao , Yu, Lei , Dai, Alvin , Li, Luxi , Liu, Jiajie , Pan, Feng , Amine, Khalil , Wu, Tianpin , Wen, Jianguo , Li, Matthew , Gim, Jihyeon , Lu, Jun , Yuan, Yifei , Zhan, Chun , Zheng, Jiaxin

in 140/146 / 639/301/299/891 / 639/4077/4079/891 / Anodic dissolution / Cathodes / Cathodic dissolution / Cracks / Disproportionation / Dissolution / Dynamic stability / ENERGY STORAGE / Fading / Humanities and Social Sciences / Jahn-Teller effect / Lithium / Lithium manganese oxides / Lithium-ion batteries / Manganese / multidisciplinary / Phase stability / Phase transitions / Rechargeable batteries / Science / Science (multidisciplinary) / Surface stability / Transition metals

2019

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Correlation between manganese dissolution and dynamic phase stability in spinel-based lithium-ion battery

2019

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2019

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Journal Article

Correlation between manganese dissolution and dynamic phase stability in spinel-based lithium-ion battery

Ma, Lu,

Ren, Yang,

Shahbazian-Yassar, Reza,

Xiao, Yinguo,

Liu, Tongchao,

Yu, Lei,

Dai, Alvin,

Li, Luxi,

Liu, Jiajie,

Pan, Feng,

Amine, Khalil,

Wu, Tianpin,

Wen, Jianguo,

Li, Matthew,

Gim, Jihyeon,

Lu, Jun,

Yuan, Yifei,

Zhan, Chun,

Zheng, Jiaxin

2019

Overview

Historically long accepted to be the singular root cause of capacity fading, transition metal dissolution has been reported to severely degrade the anode. However, its impact on the cathode behavior remains poorly understood. Here we show the correlation between capacity fading and phase/surface stability of an LiMn 2 O 4 cathode. It is revealed that a combination of structural transformation and transition metal dissolution dominates the cathode capacity fading. LiMn 2 O 4 exhibits irreversible phase transitions driven by manganese(III) disproportionation and Jahn-Teller distortion, which in conjunction with particle cracks results in serious manganese dissolution. Meanwhile, fast manganese dissolution in turn triggers irreversible structural evolution, and as such, forms a detrimental cycle constantly consuming active cathode components. Furthermore, lithium-rich LiMn 2 O 4 with lithium/manganese disorder and surface reconstruction could effectively suppress the irreversible phase transition and manganese dissolution. These findings close the loop of understanding capacity fading mechanisms and allow for development of longer life batteries. To unlock the potential of Mn-based cathode materials, the fast capacity fading process has to be first understood. Here the authors utilize advanced characterization techniques to look at a spinel LiMn 2 O 4 system, revealing that a combination of irreversible structural transformations and Mn dissolution takes responsibility.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

/ Cathodic dissolution

/ Cracks