MoS2 architectures supported on graphene foam/carbon nanotube hybrid films: Highly integrated frameworks with ideal contact for superior lithium storage

Jin Wang; Jilei Liu; Jingshan Luo; Pei Liang; Dongliang Chao; Linfei Lai; Jianyi Lin; Zexiang Shen

doi:10.1039/c5ta03870g

MoS₂ architectures supported on graphene foam/carbon nanotube hybrid films: Highly integrated frameworks with ideal contact for superior lithium storage

Jin Wang, Jilei Liu, Jingshan Luo, Pei Liang, Dongliang Chao, Linfei Lai, Jianyi Lin, Zexiang Shen

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

56 Scopus citations

Abstract

Three-dimensional (3D) nanoworm-like MoS₂ architectures have been successfully synthesized and directly supported on graphene foam/carbon nanotubes (GF/CNT) hybrid films. The sp²-hybridized GF/CNT films provide robust frameworks with an ideal contact for the nucleation and subsequent massive growth of the MoS₂ architectures, while acting as an efficient current collector with a conductive contact for binder-free electrodes. The as-prepared hierarchical MoS₂@GF/CNT electrode shows capacities of 1368 mA h g^-1 and 823 mA h g^-1 at current densities of 200 mA g^-1 and 5000 mA g^-1, and can retain 81.3% of the initial reversible capacity up to 120 cycles.

Original language	English
Pages (from-to)	17534-17543
Number of pages	10
Journal	Journal of Materials Chemistry A
Volume	3
Issue number	34
DOIs	https://doi.org/10.1039/c5ta03870g
State	Published - 27 Jul 2015
Externally published	Yes

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title = "MoS2 architectures supported on graphene foam/carbon nanotube hybrid films: Highly integrated frameworks with ideal contact for superior lithium storage",

abstract = "Three-dimensional (3D) nanoworm-like MoS2 architectures have been successfully synthesized and directly supported on graphene foam/carbon nanotubes (GF/CNT) hybrid films. The sp2-hybridized GF/CNT films provide robust frameworks with an ideal contact for the nucleation and subsequent massive growth of the MoS2 architectures, while acting as an efficient current collector with a conductive contact for binder-free electrodes. The as-prepared hierarchical MoS2@GF/CNT electrode shows capacities of 1368 mA h g-1 and 823 mA h g-1 at current densities of 200 mA g-1 and 5000 mA g-1, and can retain 81.3% of the initial reversible capacity up to 120 cycles.",

author = "Jin Wang and Jilei Liu and Jingshan Luo and Pei Liang and Dongliang Chao and Linfei Lai and Jianyi Lin and Zexiang Shen",

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T1 - MoS2 architectures supported on graphene foam/carbon nanotube hybrid films

T2 - Highly integrated frameworks with ideal contact for superior lithium storage

AU - Wang, Jin

AU - Liu, Jilei

AU - Luo, Jingshan

AU - Liang, Pei

AU - Chao, Dongliang

AU - Lai, Linfei

AU - Lin, Jianyi

AU - Shen, Zexiang

PY - 2015/7/27

Y1 - 2015/7/27

N2 - Three-dimensional (3D) nanoworm-like MoS2 architectures have been successfully synthesized and directly supported on graphene foam/carbon nanotubes (GF/CNT) hybrid films. The sp2-hybridized GF/CNT films provide robust frameworks with an ideal contact for the nucleation and subsequent massive growth of the MoS2 architectures, while acting as an efficient current collector with a conductive contact for binder-free electrodes. The as-prepared hierarchical MoS2@GF/CNT electrode shows capacities of 1368 mA h g-1 and 823 mA h g-1 at current densities of 200 mA g-1 and 5000 mA g-1, and can retain 81.3% of the initial reversible capacity up to 120 cycles.

AB - Three-dimensional (3D) nanoworm-like MoS2 architectures have been successfully synthesized and directly supported on graphene foam/carbon nanotubes (GF/CNT) hybrid films. The sp2-hybridized GF/CNT films provide robust frameworks with an ideal contact for the nucleation and subsequent massive growth of the MoS2 architectures, while acting as an efficient current collector with a conductive contact for binder-free electrodes. The as-prepared hierarchical MoS2@GF/CNT electrode shows capacities of 1368 mA h g-1 and 823 mA h g-1 at current densities of 200 mA g-1 and 5000 mA g-1, and can retain 81.3% of the initial reversible capacity up to 120 cycles.

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DO - 10.1039/c5ta03870g

M3 - 文章

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JO - Journal of Materials Chemistry A

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IS - 34

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MoS₂ architectures supported on graphene foam/carbon nanotube hybrid films: Highly integrated frameworks with ideal contact for superior lithium storage

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