Synthesis and electrochemical evolution of mesoporous LiFeSO4F0.56(OH)0.44 with high power and long cyclability

Xiao Min Liu; Su Long Zhang; Meng Yang; Xiao Zhen Liao; Hui Yang; Xiao Dong Shen; Zi Feng Ma

doi:10.1039/c4cc06174h

Synthesis and electrochemical evolution of mesoporous LiFeSO₄F_0.56(OH)_0.44 with high power and long cyclability

Xiao Min Liu, Su Long Zhang, Meng Yang, Xiao Zhen Liao, Hui Yang, Xiao Dong Shen, Zi Feng Ma

材料科学与工程学院

科研成果: 期刊稿件 › 文章 › 同行评审

10 引用（Scopus）

摘要

A feasible and scalable two-step method is developed to synthesize LiFeSO₄F_y(OH)_1−y which could deliver 92 and 80 mA h g⁻¹ when cycled at 1 C and 15 C, respectively. Moreover, with 80% of capacity retention after 2800 cycles at 1 C, this material should be of great interest as a contender to LiFePO₄ for use in high power Li-ion batteries.

源语言	英语
页（从-至）	15247-15250
页数	4
期刊	Chemical Communications
卷	50
期	96
DOI	https://doi.org/10.1039/c4cc06174h
出版状态	已出版 - 6 11月 2014

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10.1039/c4cc06174h

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abstract = "A feasible and scalable two-step method is developed to synthesize LiFeSO4Fy(OH)1−y which could deliver 92 and 80 mA h g−1 when cycled at 1 C and 15 C, respectively. Moreover, with 80% of capacity retention after 2800 cycles at 1 C, this material should be of great interest as a contender to LiFePO4 for use in high power Li-ion batteries.",

author = "Liu, {Xiao Min} and Zhang, {Su Long} and Meng Yang and Liao, {Xiao Zhen} and Hui Yang and Shen, {Xiao Dong} and Ma, {Zi Feng}",

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AU - Liu, Xiao Min

AU - Zhang, Su Long

AU - Yang, Meng

AU - Liao, Xiao Zhen

AU - Yang, Hui

AU - Shen, Xiao Dong

AU - Ma, Zi Feng

PY - 2014/11/6

Y1 - 2014/11/6

N2 - A feasible and scalable two-step method is developed to synthesize LiFeSO4Fy(OH)1−y which could deliver 92 and 80 mA h g−1 when cycled at 1 C and 15 C, respectively. Moreover, with 80% of capacity retention after 2800 cycles at 1 C, this material should be of great interest as a contender to LiFePO4 for use in high power Li-ion batteries.

AB - A feasible and scalable two-step method is developed to synthesize LiFeSO4Fy(OH)1−y which could deliver 92 and 80 mA h g−1 when cycled at 1 C and 15 C, respectively. Moreover, with 80% of capacity retention after 2800 cycles at 1 C, this material should be of great interest as a contender to LiFePO4 for use in high power Li-ion batteries.

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ER -

Synthesis and electrochemical evolution of mesoporous LiFeSO4F0.56(OH)0.44 with high power and long cyclability

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Synthesis and electrochemical evolution of mesoporous LiFeSO₄F_0.56(OH)_0.44 with high power and long cyclability