Core-shell structured electrode materials for lithium ion batteries

H. P. Zhang; L. C. Yang; L. J. Fu; Q. Cao; D. L. Sun; Y. P. Wu; R. Holze

doi:10.1007/s10008-009-0804-7

Core-shell structured electrode materials for lithium ion batteries

H. P. Zhang, L. C. Yang, L. J. Fu, Q. Cao, D. L. Sun, Y. P. Wu, R. Holze

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

15 Scopus citations

Abstract

Recent progress in studies of several types of core-shell structured electrode materials, including TiO ₂/C, Si/C, Si/SiO _x, LiCoO ₂/C, and LiFePO ₄/C nanocomposites, including details of their preparation and their electrochemical performance is briefly reviewed. Results clearly show that the coating shell can effectively prevent the aggregation of the nanosized cores, which are the electrochemically active materials. In addition, the diffusion coefficients of lithium ions can be increased, and the reversibility of lithium intercalation and deintercalation is improved. As a result, the cycling behavior is greatly improved. The reviewed results suggest that core-shell nanocomposites are a good starting point for further development of new promising electrode materials.

Original language	English
Pages (from-to)	1521-1527
Number of pages	7
Journal	Journal of Solid State Electrochemistry
Volume	13
Issue number	10
DOIs	https://doi.org/10.1007/s10008-009-0804-7
State	Published - Oct 2009
Externally published	Yes

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title = "Core-shell structured electrode materials for lithium ion batteries",

abstract = "Recent progress in studies of several types of core-shell structured electrode materials, including TiO 2/C, Si/C, Si/SiO x, LiCoO 2/C, and LiFePO 4/C nanocomposites, including details of their preparation and their electrochemical performance is briefly reviewed. Results clearly show that the coating shell can effectively prevent the aggregation of the nanosized cores, which are the electrochemically active materials. In addition, the diffusion coefficients of lithium ions can be increased, and the reversibility of lithium intercalation and deintercalation is improved. As a result, the cycling behavior is greatly improved. The reviewed results suggest that core-shell nanocomposites are a good starting point for further development of new promising electrode materials.",

author = "Zhang, {H. P.} and Yang, {L. C.} and Fu, {L. J.} and Q. Cao and Sun, {D. L.} and Wu, {Y. P.} and R. Holze",

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TY - JOUR

T1 - Core-shell structured electrode materials for lithium ion batteries

AU - Zhang, H. P.

AU - Yang, L. C.

AU - Fu, L. J.

AU - Cao, Q.

AU - Sun, D. L.

AU - Wu, Y. P.

AU - Holze, R.

PY - 2009/10

Y1 - 2009/10

N2 - Recent progress in studies of several types of core-shell structured electrode materials, including TiO 2/C, Si/C, Si/SiO x, LiCoO 2/C, and LiFePO 4/C nanocomposites, including details of their preparation and their electrochemical performance is briefly reviewed. Results clearly show that the coating shell can effectively prevent the aggregation of the nanosized cores, which are the electrochemically active materials. In addition, the diffusion coefficients of lithium ions can be increased, and the reversibility of lithium intercalation and deintercalation is improved. As a result, the cycling behavior is greatly improved. The reviewed results suggest that core-shell nanocomposites are a good starting point for further development of new promising electrode materials.

AB - Recent progress in studies of several types of core-shell structured electrode materials, including TiO 2/C, Si/C, Si/SiO x, LiCoO 2/C, and LiFePO 4/C nanocomposites, including details of their preparation and their electrochemical performance is briefly reviewed. Results clearly show that the coating shell can effectively prevent the aggregation of the nanosized cores, which are the electrochemically active materials. In addition, the diffusion coefficients of lithium ions can be increased, and the reversibility of lithium intercalation and deintercalation is improved. As a result, the cycling behavior is greatly improved. The reviewed results suggest that core-shell nanocomposites are a good starting point for further development of new promising electrode materials.

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JO - Journal of Solid State Electrochemistry

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ER -

Core-shell structured electrode materials for lithium ion batteries

Abstract

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