A general solution-chemistry route to the synthesis LiMPO4 (M=Mn, Fe, and Co) nanocrystals with [010] orientation for lithium ion batteries

Jing Su; Bing Qing Wei; Jie Peng Rong; Wen Yan Yin; Zhi Xia Ye; Xian Qing Tian; Ling Ren; Min Hua Cao; Chang Wen Hu

doi:10.1016/j.jssc.2011.08.042

A general solution-chemistry route to the synthesis LiMPO₄ (M=Mn, Fe, and Co) nanocrystals with [010] orientation for lithium ion batteries

Jing Su, Bing Qing Wei, Jie Peng Rong, Wen Yan Yin, Zhi Xia Ye, Xian Qing Tian, Ling Ren^*, Min Hua Cao, Chang Wen Hu

^*此作品的通讯作者

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

53 引用（Scopus）

摘要

A general and efficient solvothermal strategy has been developed for the preparation of lithium transition metal phosphate microstructures (LiMnPO ₄, LiFePO₄, and LiCoPO₄), employing ethanol as the solvent, LiI as the Li source, metal salts as the M sources, H ₃PO₄ as the phosphorus source, and poly(vinyl pyrrolidone) (PVP) as the carbon source and template. This route features low cost, environmental benign, and one-step process for the cathode material production of Li-ion batteries without any complicated experimental setups and sophisticated operations. The as-synthesized LiMPO₄ microstructures exhibit unique, well-shaped and favorable structures, which are self-assembled from microplates or microrods. The b axis is the preferred crystal growth orientation of the products, resulting in a shorter lithium ion diffusion path. The LiFePO₄ microstructures show an excellent cycling stability without capacity fading up to 50 cycles when they are used as a cathode material in lithium-ion batteries.

源语言	英语
页（从-至）	2909-2919
页数	11
期刊	Journal of Solid State Chemistry
卷	184
期	11
DOI	https://doi.org/10.1016/j.jssc.2011.08.042
出版状态	已出版 - 11月 2011

联合国可持续发展目标

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10.1016/j.jssc.2011.08.042

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Su, J., Wei, B. Q., Rong, J. P., Yin, W. Y., Ye, Z. X., Tian, X. Q., Ren, L., Cao, M. H., & Hu, C. W. (2011). A general solution-chemistry route to the synthesis LiMPO₄ (M=Mn, Fe, and Co) nanocrystals with [010] orientation for lithium ion batteries. Journal of Solid State Chemistry, 184(11), 2909-2919. https://doi.org/10.1016/j.jssc.2011.08.042

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title = "A general solution-chemistry route to the synthesis LiMPO4 (M=Mn, Fe, and Co) nanocrystals with [010] orientation for lithium ion batteries",

abstract = "A general and efficient solvothermal strategy has been developed for the preparation of lithium transition metal phosphate microstructures (LiMnPO 4, LiFePO4, and LiCoPO4), employing ethanol as the solvent, LiI as the Li source, metal salts as the M sources, H 3PO4 as the phosphorus source, and poly(vinyl pyrrolidone) (PVP) as the carbon source and template. This route features low cost, environmental benign, and one-step process for the cathode material production of Li-ion batteries without any complicated experimental setups and sophisticated operations. The as-synthesized LiMPO4 microstructures exhibit unique, well-shaped and favorable structures, which are self-assembled from microplates or microrods. The b axis is the preferred crystal growth orientation of the products, resulting in a shorter lithium ion diffusion path. The LiFePO4 microstructures show an excellent cycling stability without capacity fading up to 50 cycles when they are used as a cathode material in lithium-ion batteries.",

keywords = "Ethanol solvothermal route, LiMPO microstructures, Lithium-ion batteries",

author = "Jing Su and Wei, {Bing Qing} and Rong, {Jie Peng} and Yin, {Wen Yan} and Ye, {Zhi Xia} and Tian, {Xian Qing} and Ling Ren and Cao, {Min Hua} and Hu, {Chang Wen}",

year = "2011",

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doi = "10.1016/j.jssc.2011.08.042",

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AU - Su, Jing

AU - Wei, Bing Qing

AU - Rong, Jie Peng

AU - Yin, Wen Yan

AU - Ye, Zhi Xia

AU - Tian, Xian Qing

AU - Ren, Ling

AU - Cao, Min Hua

AU - Hu, Chang Wen

PY - 2011/11

Y1 - 2011/11

N2 - A general and efficient solvothermal strategy has been developed for the preparation of lithium transition metal phosphate microstructures (LiMnPO 4, LiFePO4, and LiCoPO4), employing ethanol as the solvent, LiI as the Li source, metal salts as the M sources, H 3PO4 as the phosphorus source, and poly(vinyl pyrrolidone) (PVP) as the carbon source and template. This route features low cost, environmental benign, and one-step process for the cathode material production of Li-ion batteries without any complicated experimental setups and sophisticated operations. The as-synthesized LiMPO4 microstructures exhibit unique, well-shaped and favorable structures, which are self-assembled from microplates or microrods. The b axis is the preferred crystal growth orientation of the products, resulting in a shorter lithium ion diffusion path. The LiFePO4 microstructures show an excellent cycling stability without capacity fading up to 50 cycles when they are used as a cathode material in lithium-ion batteries.

AB - A general and efficient solvothermal strategy has been developed for the preparation of lithium transition metal phosphate microstructures (LiMnPO 4, LiFePO4, and LiCoPO4), employing ethanol as the solvent, LiI as the Li source, metal salts as the M sources, H 3PO4 as the phosphorus source, and poly(vinyl pyrrolidone) (PVP) as the carbon source and template. This route features low cost, environmental benign, and one-step process for the cathode material production of Li-ion batteries without any complicated experimental setups and sophisticated operations. The as-synthesized LiMPO4 microstructures exhibit unique, well-shaped and favorable structures, which are self-assembled from microplates or microrods. The b axis is the preferred crystal growth orientation of the products, resulting in a shorter lithium ion diffusion path. The LiFePO4 microstructures show an excellent cycling stability without capacity fading up to 50 cycles when they are used as a cathode material in lithium-ion batteries.

KW - Ethanol solvothermal route

KW - LiMPO microstructures

KW - Lithium-ion batteries

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SN - 0022-4596

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ER -

A general solution-chemistry route to the synthesis LiMPO4 (M=Mn, Fe, and Co) nanocrystals with [010] orientation for lithium ion batteries

摘要

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A general solution-chemistry route to the synthesis LiMPO₄ (M=Mn, Fe, and Co) nanocrystals with [010] orientation for lithium ion batteries