Facile synthesis and electrochemical properties of CoMn2O 4 anodes for high capacity lithium-ion batteries

Lijing Wang; Bin Liu; Sihan Ran; Liming Wang; Lina Gao; Fengyu Qu; Di Chen; Guozhen Shen

doi:10.1039/c2ta00125j

Facile synthesis and electrochemical properties of CoMn₂O ₄ anodes for high capacity lithium-ion batteries

Lijing Wang, Bin Liu, Sihan Ran, Liming Wang, Lina Gao, Fengyu Qu^*, Di Chen, Guozhen Shen

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摘要

Manganese-based oxides have been proven to be promising materials for applications in high voltage and high energy density Li-ion batteries. In this work, by using hydrothermally synthesized β-MnO₂ nanorods as the templates, we prepared single-crystalline CoMn₂O₄ nano/submicrorods with diameters of about 100 nm and lengths up to tens of micrometers. The electrochemical tests showed that the CoMn₂O ₄ products have a reversible capacity of 512 mA h g^-1 at a current density of 200 mA g^-1 with a coulombic efficiency of 98% after 100 cycles. A specific capacity of about 400 mA h g^-1 was obtained even at a current density as high as 1000 mA g^-1, exhibiting a high reversibility and a good capacity retention. This study suggests that CoMn₂O₄ nano/submicrorods are promising anode materials for high performance lithium-ion batteries.

源语言	英语
页（从-至）	2139-2143
页数	5
期刊	Journal of Materials Chemistry A
卷	1
期	6
DOI	https://doi.org/10.1039/c2ta00125j
出版状态	已出版 - 14 2月 2013
已对外发布	是

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title = "Facile synthesis and electrochemical properties of CoMn2O 4 anodes for high capacity lithium-ion batteries",

abstract = "Manganese-based oxides have been proven to be promising materials for applications in high voltage and high energy density Li-ion batteries. In this work, by using hydrothermally synthesized β-MnO2 nanorods as the templates, we prepared single-crystalline CoMn2O4 nano/submicrorods with diameters of about 100 nm and lengths up to tens of micrometers. The electrochemical tests showed that the CoMn2O 4 products have a reversible capacity of 512 mA h g-1 at a current density of 200 mA g-1 with a coulombic efficiency of 98% after 100 cycles. A specific capacity of about 400 mA h g-1 was obtained even at a current density as high as 1000 mA g-1, exhibiting a high reversibility and a good capacity retention. This study suggests that CoMn2O4 nano/submicrorods are promising anode materials for high performance lithium-ion batteries.",

author = "Lijing Wang and Bin Liu and Sihan Ran and Liming Wang and Lina Gao and Fengyu Qu and Di Chen and Guozhen Shen",

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T1 - Facile synthesis and electrochemical properties of CoMn2O 4 anodes for high capacity lithium-ion batteries

AU - Wang, Lijing

AU - Liu, Bin

AU - Ran, Sihan

AU - Wang, Liming

AU - Gao, Lina

AU - Qu, Fengyu

AU - Chen, Di

AU - Shen, Guozhen

PY - 2013/2/14

Y1 - 2013/2/14

N2 - Manganese-based oxides have been proven to be promising materials for applications in high voltage and high energy density Li-ion batteries. In this work, by using hydrothermally synthesized β-MnO2 nanorods as the templates, we prepared single-crystalline CoMn2O4 nano/submicrorods with diameters of about 100 nm and lengths up to tens of micrometers. The electrochemical tests showed that the CoMn2O 4 products have a reversible capacity of 512 mA h g-1 at a current density of 200 mA g-1 with a coulombic efficiency of 98% after 100 cycles. A specific capacity of about 400 mA h g-1 was obtained even at a current density as high as 1000 mA g-1, exhibiting a high reversibility and a good capacity retention. This study suggests that CoMn2O4 nano/submicrorods are promising anode materials for high performance lithium-ion batteries.

AB - Manganese-based oxides have been proven to be promising materials for applications in high voltage and high energy density Li-ion batteries. In this work, by using hydrothermally synthesized β-MnO2 nanorods as the templates, we prepared single-crystalline CoMn2O4 nano/submicrorods with diameters of about 100 nm and lengths up to tens of micrometers. The electrochemical tests showed that the CoMn2O 4 products have a reversible capacity of 512 mA h g-1 at a current density of 200 mA g-1 with a coulombic efficiency of 98% after 100 cycles. A specific capacity of about 400 mA h g-1 was obtained even at a current density as high as 1000 mA g-1, exhibiting a high reversibility and a good capacity retention. This study suggests that CoMn2O4 nano/submicrorods are promising anode materials for high performance lithium-ion batteries.

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JO - Journal of Materials Chemistry A

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Facile synthesis and electrochemical properties of CoMn2O 4 anodes for high capacity lithium-ion batteries

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Facile synthesis and electrochemical properties of CoMn₂O ₄ anodes for high capacity lithium-ion batteries