Stable 4 V-class bicontinuous cathodes by hierarchically porous carbon coating on Li3V2(PO4)3 nanospheres

Linfeng Fei; Li Sun; Wei Lu; Min Guo; Haitao Huang; Jiaping Wang; Helen L.W. Chan; Shoushan Fan; Yu Wang

doi:10.1039/c4nr04488f

Stable 4 V-class bicontinuous cathodes by hierarchically porous carbon coating on Li₃V₂(PO₄)₃ nanospheres

Linfeng Fei
, Li Sun
, Wei Lu
, Min Guo
, Haitao Huang
, Jiaping Wang
, Helen L.W. Chan
, Shoushan Fan
, Yu Wang

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

21 Scopus citations

Abstract

A high performance, durable cathode material for lithium ion batteries is achieved by incorporating ∼50 nm Li₃V₂(PO₄)₃/C core-shell nanospheres into a porous carbon framework. The Li₃V₂(PO₄)₃/C nanocomposite delivers an initial discharge capacity of 130 mA h g^-1, approaching its theoretical limit (133 mA h g^-1). At a high current rate (10 C), the nanocomposite displays an impressive long cycle life and remarkable capacity retention (90% after 1200 cycles). Notably, the Coulombic efficiency is above 99% during the course of cycling. The remarkable power capability and cycle stability derived from our simple and scalable synthesis suggests that this 4 V-class material could be one of the most promising candidates for future batteries.

Original language	English
Pages (from-to)	12426-12433
Number of pages	8
Journal	Nanoscale
Volume	6
Issue number	21
DOIs	https://doi.org/10.1039/c4nr04488f
State	Published - 7 Nov 2014
Externally published	Yes

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

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10.1039/c4nr04488f

Cite this

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title = "Stable 4 V-class bicontinuous cathodes by hierarchically porous carbon coating on Li3V2(PO4)3 nanospheres",

abstract = "A high performance, durable cathode material for lithium ion batteries is achieved by incorporating ∼50 nm Li3V2(PO4)3/C core-shell nanospheres into a porous carbon framework. The Li3V2(PO4)3/C nanocomposite delivers an initial discharge capacity of 130 mA h g-1, approaching its theoretical limit (133 mA h g-1). At a high current rate (10 C), the nanocomposite displays an impressive long cycle life and remarkable capacity retention (90\% after 1200 cycles). Notably, the Coulombic efficiency is above 99\% during the course of cycling. The remarkable power capability and cycle stability derived from our simple and scalable synthesis suggests that this 4 V-class material could be one of the most promising candidates for future batteries.",

author = "Linfeng Fei and Li Sun and Wei Lu and Min Guo and Haitao Huang and Jiaping Wang and Chan, \{Helen L.W.\} and Shoushan Fan and Yu Wang",

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doi = "10.1039/c4nr04488f",

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AU - Fei, Linfeng

AU - Sun, Li

AU - Lu, Wei

AU - Guo, Min

AU - Huang, Haitao

AU - Wang, Jiaping

AU - Chan, Helen L.W.

AU - Fan, Shoushan

AU - Wang, Yu

PY - 2014/11/7

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N2 - A high performance, durable cathode material for lithium ion batteries is achieved by incorporating ∼50 nm Li3V2(PO4)3/C core-shell nanospheres into a porous carbon framework. The Li3V2(PO4)3/C nanocomposite delivers an initial discharge capacity of 130 mA h g-1, approaching its theoretical limit (133 mA h g-1). At a high current rate (10 C), the nanocomposite displays an impressive long cycle life and remarkable capacity retention (90% after 1200 cycles). Notably, the Coulombic efficiency is above 99% during the course of cycling. The remarkable power capability and cycle stability derived from our simple and scalable synthesis suggests that this 4 V-class material could be one of the most promising candidates for future batteries.

AB - A high performance, durable cathode material for lithium ion batteries is achieved by incorporating ∼50 nm Li3V2(PO4)3/C core-shell nanospheres into a porous carbon framework. The Li3V2(PO4)3/C nanocomposite delivers an initial discharge capacity of 130 mA h g-1, approaching its theoretical limit (133 mA h g-1). At a high current rate (10 C), the nanocomposite displays an impressive long cycle life and remarkable capacity retention (90% after 1200 cycles). Notably, the Coulombic efficiency is above 99% during the course of cycling. The remarkable power capability and cycle stability derived from our simple and scalable synthesis suggests that this 4 V-class material could be one of the most promising candidates for future batteries.

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Stable 4 V-class bicontinuous cathodes by hierarchically porous carbon coating on Li₃V₂(PO₄)₃ nanospheres

Abstract

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