LiMn2O4 nanorods as a super-fast cathode material for aqueous rechargeable lithium batteries

W. Tang; L. L. Liu; S. Tian; L. Li; L. L. Li; Y. B. Yue; Y. Bai; Y. P. Wu; K. Zhu; R. Holze

doi:10.1016/j.elecom.2011.09.008

LiMn₂O₄ nanorods as a super-fast cathode material for aqueous rechargeable lithium batteries

W. Tang, L. L. Liu, S. Tian, L. Li, L. L. Li, Y. B. Yue, Y. Bai, Y. P. Wu, K. Zhu, R. Holze

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摘要

LiMn₂O₄ nanorods were prepared by a facile hydrothermal method in combination with traditional solid-state reactions and characterized by X-ray diffraction analysis. Their electrochemical behavior was tested by cyclic voltammetry and repeated charge/discharge cycling. Results show that the reversible intercalation/deintercalation of Li-ions into/from LiMn₂O₄ cathode can yield up to 110 mAh/g at 4.5 C, and still retains 88% at the very large charge rate of 90 C with well-defined charge and discharge plateaus. It presents very high power density, up to 14.5 kW/kg, and very excellent cycling behavior, 94% capacity retention after 1200 cycles. It is thus a competitor for LiFePO₄.

源语言	英语
页（从-至）	1159-1162
页数	4
期刊	Electrochemistry Communications
卷	13
期	11
DOI	https://doi.org/10.1016/j.elecom.2011.09.008
出版状态	已出版 - 11月 2011
已对外发布	是

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title = "LiMn2O4 nanorods as a super-fast cathode material for aqueous rechargeable lithium batteries",

abstract = "LiMn2O4 nanorods were prepared by a facile hydrothermal method in combination with traditional solid-state reactions and characterized by X-ray diffraction analysis. Their electrochemical behavior was tested by cyclic voltammetry and repeated charge/discharge cycling. Results show that the reversible intercalation/deintercalation of Li-ions into/from LiMn2O4 cathode can yield up to 110 mAh/g at 4.5 C, and still retains 88% at the very large charge rate of 90 C with well-defined charge and discharge plateaus. It presents very high power density, up to 14.5 kW/kg, and very excellent cycling behavior, 94% capacity retention after 1200 cycles. It is thus a competitor for LiFePO4.",

keywords = "Aqueous rechargeable lithium battery (ARLB), Cathode material, LiMnO, Nanorods, Rate capability",

author = "W. Tang and Liu, {L. L.} and S. Tian and L. Li and Li, {L. L.} and Yue, {Y. B.} and Y. Bai and Wu, {Y. P.} and K. Zhu and R. Holze",

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T1 - LiMn2O4 nanorods as a super-fast cathode material for aqueous rechargeable lithium batteries

AU - Tang, W.

AU - Liu, L. L.

AU - Tian, S.

AU - Li, L.

AU - Li, L. L.

AU - Yue, Y. B.

AU - Bai, Y.

AU - Wu, Y. P.

AU - Zhu, K.

AU - Holze, R.

PY - 2011/11

Y1 - 2011/11

N2 - LiMn2O4 nanorods were prepared by a facile hydrothermal method in combination with traditional solid-state reactions and characterized by X-ray diffraction analysis. Their electrochemical behavior was tested by cyclic voltammetry and repeated charge/discharge cycling. Results show that the reversible intercalation/deintercalation of Li-ions into/from LiMn2O4 cathode can yield up to 110 mAh/g at 4.5 C, and still retains 88% at the very large charge rate of 90 C with well-defined charge and discharge plateaus. It presents very high power density, up to 14.5 kW/kg, and very excellent cycling behavior, 94% capacity retention after 1200 cycles. It is thus a competitor for LiFePO4.

AB - LiMn2O4 nanorods were prepared by a facile hydrothermal method in combination with traditional solid-state reactions and characterized by X-ray diffraction analysis. Their electrochemical behavior was tested by cyclic voltammetry and repeated charge/discharge cycling. Results show that the reversible intercalation/deintercalation of Li-ions into/from LiMn2O4 cathode can yield up to 110 mAh/g at 4.5 C, and still retains 88% at the very large charge rate of 90 C with well-defined charge and discharge plateaus. It presents very high power density, up to 14.5 kW/kg, and very excellent cycling behavior, 94% capacity retention after 1200 cycles. It is thus a competitor for LiFePO4.

KW - Aqueous rechargeable lithium battery (ARLB)

KW - Cathode material

KW - LiMnO

KW - Nanorods

KW - Rate capability

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VL - 13

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EP - 1162

JO - Electrochemistry Communications

JF - Electrochemistry Communications

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ER -

LiMn2O4 nanorods as a super-fast cathode material for aqueous rechargeable lithium batteries

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LiMn₂O₄ nanorods as a super-fast cathode material for aqueous rechargeable lithium batteries