Facile synthesis of microsized MnO/C composites with high tap density as high performance anodes for Li-ion batteries

Jian Gan Wang; Huanyan Liu; Hongzhen Liu; Zihao Fu; Ding Nan

doi:10.1016/j.cej.2017.07.039

Facile synthesis of microsized MnO/C composites with high tap density as high performance anodes for Li-ion batteries

Jian Gan Wang, Huanyan Liu, Hongzhen Liu, Zihao Fu, Ding Nan

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

126 引用（Scopus）

摘要

Microsized MnO/C composites are synthesized through a facile strategy of in situ interfacial polymerization followed by a simple carbonization process. The MnO/C composites exhibit solid microspherical structure having low specific surface area and high tap density. When evaluated as an anode material for Li-ion batteries, the MnO/C composites show a high gravimetric/volumetric specific capacity of 818 mAh g⁻¹/1374 mAh cm⁻³ at 100 mA g⁻¹, excellent cycling stability (a capacity retention rate of 99.3% after 100 cycles), and good rate capacity. The microsized MnO/C anode also manifests outstanding capacity recoverability in the different cut-off voltage range of 1.5–3.0 V. The excellent Li-ion storage properties of the MnO/C solid microspheres demonstrate its potential feasibility of practical application for high-performance Li-ion batteries.

源语言	英语
页（从-至）	591-598
页数	8
期刊	Chemical Engineering Journal
卷	328
DOI	https://doi.org/10.1016/j.cej.2017.07.039
出版状态	已出版 - 2017

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title = "Facile synthesis of microsized MnO/C composites with high tap density as high performance anodes for Li-ion batteries",

abstract = "Microsized MnO/C composites are synthesized through a facile strategy of in situ interfacial polymerization followed by a simple carbonization process. The MnO/C composites exhibit solid microspherical structure having low specific surface area and high tap density. When evaluated as an anode material for Li-ion batteries, the MnO/C composites show a high gravimetric/volumetric specific capacity of 818 mAh g−1/1374 mAh cm−3 at 100 mA g−1, excellent cycling stability (a capacity retention rate of 99.3% after 100 cycles), and good rate capacity. The microsized MnO/C anode also manifests outstanding capacity recoverability in the different cut-off voltage range of 1.5–3.0 V. The excellent Li-ion storage properties of the MnO/C solid microspheres demonstrate its potential feasibility of practical application for high-performance Li-ion batteries.",

keywords = "Carbon coating, High performance, High tap density, Li-ion batteries, Manganese oxide",

author = "Wang, {Jian Gan} and Huanyan Liu and Hongzhen Liu and Zihao Fu and Ding Nan",

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AU - Wang, Jian Gan

AU - Liu, Huanyan

AU - Liu, Hongzhen

AU - Fu, Zihao

AU - Nan, Ding

PY - 2017

Y1 - 2017

N2 - Microsized MnO/C composites are synthesized through a facile strategy of in situ interfacial polymerization followed by a simple carbonization process. The MnO/C composites exhibit solid microspherical structure having low specific surface area and high tap density. When evaluated as an anode material for Li-ion batteries, the MnO/C composites show a high gravimetric/volumetric specific capacity of 818 mAh g−1/1374 mAh cm−3 at 100 mA g−1, excellent cycling stability (a capacity retention rate of 99.3% after 100 cycles), and good rate capacity. The microsized MnO/C anode also manifests outstanding capacity recoverability in the different cut-off voltage range of 1.5–3.0 V. The excellent Li-ion storage properties of the MnO/C solid microspheres demonstrate its potential feasibility of practical application for high-performance Li-ion batteries.

AB - Microsized MnO/C composites are synthesized through a facile strategy of in situ interfacial polymerization followed by a simple carbonization process. The MnO/C composites exhibit solid microspherical structure having low specific surface area and high tap density. When evaluated as an anode material for Li-ion batteries, the MnO/C composites show a high gravimetric/volumetric specific capacity of 818 mAh g−1/1374 mAh cm−3 at 100 mA g−1, excellent cycling stability (a capacity retention rate of 99.3% after 100 cycles), and good rate capacity. The microsized MnO/C anode also manifests outstanding capacity recoverability in the different cut-off voltage range of 1.5–3.0 V. The excellent Li-ion storage properties of the MnO/C solid microspheres demonstrate its potential feasibility of practical application for high-performance Li-ion batteries.

KW - Carbon coating

KW - High performance

KW - High tap density

KW - Li-ion batteries

KW - Manganese oxide

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Facile synthesis of microsized MnO/C composites with high tap density as high performance anodes for Li-ion batteries

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