Al–C hybrid nanoclustered anodes for lithium ion batteries with high electrical capacity and cyclic stability

Ji Hun Park; Chairul Hudaya; A. Young Kim; Do Kyung Rhee; Seon Ju Yeo; Wonchang Choi; Pil J. Yoo; Joong Kee Lee

doi:10.1039/c3cc47900e

Al–C hybrid nanoclustered anodes for lithium ion batteries with high electrical capacity and cyclic stability

Ji Hun Park, Chairul Hudaya, A. Young Kim, Do Kyung Rhee, Seon Ju Yeo, Wonchang Choi, Pil J. Yoo, Joong Kee Lee

Department of Electrical Engineering

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

50 Citations (Scopus)

Abstract

Structurally regulated and hybridized Al–C nanoclusters are prepared from C₆₀ and Al precursors by thermal evaporation-combined plasma-enhanced chemical vapour deposition. The resulting Al–C hybrid nanoclustered anodes for Li-ion batteries exhibit a high reversible capacity of >900 mA h g⁻¹ at an optimized current density of 6 A g⁻¹ for over 100 cycles.

Original language	English
Pages (from-to)	2837-2840
Number of pages	4
Journal	Chemical Communications
Volume	50
Issue number	22
DOIs	https://doi.org/10.1039/c3cc47900e
Publication status	Published - 18 Feb 2014

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abstract = "Structurally regulated and hybridized Al–C nanoclusters are prepared from C60 and Al precursors by thermal evaporation-combined plasma-enhanced chemical vapour deposition. The resulting Al–C hybrid nanoclustered anodes for Li-ion batteries exhibit a high reversible capacity of >900 mA h g−1 at an optimized current density of 6 A g−1 for over 100 cycles.",

author = "Park, {Ji Hun} and Chairul Hudaya and Kim, {A. Young} and Rhee, {Do Kyung} and Yeo, {Seon Ju} and Wonchang Choi and Yoo, {Pil J.} and Lee, {Joong Kee}",

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AU - Park, Ji Hun

AU - Hudaya, Chairul

AU - Kim, A. Young

AU - Rhee, Do Kyung

AU - Yeo, Seon Ju

AU - Choi, Wonchang

AU - Yoo, Pil J.

AU - Lee, Joong Kee

PY - 2014/2/18

Y1 - 2014/2/18

N2 - Structurally regulated and hybridized Al–C nanoclusters are prepared from C60 and Al precursors by thermal evaporation-combined plasma-enhanced chemical vapour deposition. The resulting Al–C hybrid nanoclustered anodes for Li-ion batteries exhibit a high reversible capacity of >900 mA h g−1 at an optimized current density of 6 A g−1 for over 100 cycles.

AB - Structurally regulated and hybridized Al–C nanoclusters are prepared from C60 and Al precursors by thermal evaporation-combined plasma-enhanced chemical vapour deposition. The resulting Al–C hybrid nanoclustered anodes for Li-ion batteries exhibit a high reversible capacity of >900 mA h g−1 at an optimized current density of 6 A g−1 for over 100 cycles.

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DO - 10.1039/c3cc47900e

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JO - Chemical Communications

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ER -

Al–C hybrid nanoclustered anodes for lithium ion batteries with high electrical capacity and cyclic stability

Abstract

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