Electrospun composite of ZnO/Cu nanocrystals-implanted carbon fibers as an anode material with high rate capability for lithium ion batteries

Xueyang Shen; Daobin Mu; Shi Chen; Rong Huang; Feng Wu

doi:10.1039/c3ta14685e

Electrospun composite of ZnO/Cu nanocrystals-implanted carbon fibers as an anode material with high rate capability for lithium ion batteries

Xueyang Shen, Daobin Mu^*, Shi Chen, Rong Huang, Feng Wu

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

51 Citations (Scopus)

Abstract

The paper reports a novel composite with ZnO and Cu nanocrystals implanted into carbon nanofibers (CNFs) and its lithium storage properties, in particular its high rate performance. Fabrication of the fibrous composite is controllably accomplished utilizing an electrospinning approach. The composite electrode exhibits a high reversible capacity of 812 mA h g^-1 at a current density of 100 mA g^-1 after 50 cycles. Moreover, it shows good rate capability even when cycled at 5000 mA g^-1. This can be attributed to the designed nano-fibrous architecture with active material implantation as well as electroconductive Cu introduction. The interconnected particles of ZnO and Cu on the CNFs ensure a good contact in the composite. Moreover, the one-dimensional CNFs act not only as a supporter with good stability, but also provide a shortened transport pathway for Li ions.

Original language	English
Pages (from-to)	4309-4315
Number of pages	7
Journal	Journal of Materials Chemistry A
Volume	2
Issue number	12
DOIs	https://doi.org/10.1039/c3ta14685e
Publication status	Published - 28 Mar 2014

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title = "Electrospun composite of ZnO/Cu nanocrystals-implanted carbon fibers as an anode material with high rate capability for lithium ion batteries",

abstract = "The paper reports a novel composite with ZnO and Cu nanocrystals implanted into carbon nanofibers (CNFs) and its lithium storage properties, in particular its high rate performance. Fabrication of the fibrous composite is controllably accomplished utilizing an electrospinning approach. The composite electrode exhibits a high reversible capacity of 812 mA h g-1 at a current density of 100 mA g-1 after 50 cycles. Moreover, it shows good rate capability even when cycled at 5000 mA g-1. This can be attributed to the designed nano-fibrous architecture with active material implantation as well as electroconductive Cu introduction. The interconnected particles of ZnO and Cu on the CNFs ensure a good contact in the composite. Moreover, the one-dimensional CNFs act not only as a supporter with good stability, but also provide a shortened transport pathway for Li ions.",

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T1 - Electrospun composite of ZnO/Cu nanocrystals-implanted carbon fibers as an anode material with high rate capability for lithium ion batteries

AU - Shen, Xueyang

AU - Mu, Daobin

AU - Chen, Shi

AU - Huang, Rong

AU - Wu, Feng

PY - 2014/3/28

Y1 - 2014/3/28

N2 - The paper reports a novel composite with ZnO and Cu nanocrystals implanted into carbon nanofibers (CNFs) and its lithium storage properties, in particular its high rate performance. Fabrication of the fibrous composite is controllably accomplished utilizing an electrospinning approach. The composite electrode exhibits a high reversible capacity of 812 mA h g-1 at a current density of 100 mA g-1 after 50 cycles. Moreover, it shows good rate capability even when cycled at 5000 mA g-1. This can be attributed to the designed nano-fibrous architecture with active material implantation as well as electroconductive Cu introduction. The interconnected particles of ZnO and Cu on the CNFs ensure a good contact in the composite. Moreover, the one-dimensional CNFs act not only as a supporter with good stability, but also provide a shortened transport pathway for Li ions.

AB - The paper reports a novel composite with ZnO and Cu nanocrystals implanted into carbon nanofibers (CNFs) and its lithium storage properties, in particular its high rate performance. Fabrication of the fibrous composite is controllably accomplished utilizing an electrospinning approach. The composite electrode exhibits a high reversible capacity of 812 mA h g-1 at a current density of 100 mA g-1 after 50 cycles. Moreover, it shows good rate capability even when cycled at 5000 mA g-1. This can be attributed to the designed nano-fibrous architecture with active material implantation as well as electroconductive Cu introduction. The interconnected particles of ZnO and Cu on the CNFs ensure a good contact in the composite. Moreover, the one-dimensional CNFs act not only as a supporter with good stability, but also provide a shortened transport pathway for Li ions.

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Electrospun composite of ZnO/Cu nanocrystals-implanted carbon fibers as an anode material with high rate capability for lithium ion batteries

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