Controllable growth of CNTs on graphene as high-performance electrode material for supercapacitors

Zhi Yu Yang; Yu Fei Zhao; Qing Qing Xiao; Yu Xia Zhang; Lin Jing; Yi Ming Yan; Ke Ning Sun

doi:10.1021/am501362g

Controllable growth of CNTs on graphene as high-performance electrode material for supercapacitors

Zhi Yu Yang, Yu Fei Zhao, Qing Qing Xiao, Yu Xia Zhang, Lin Jing, Yi Ming Yan^*, Ke Ning Sun

^*此作品的通讯作者

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

73 引用（Scopus）

摘要

Design and synthesis of three-dimensional (3D) structured carbon materials are crucial for achieving high-performance supercapacitors (SC) for energy storage. Here, we report the preparation of 3D architectured GN-CNT hybrid as SC electrodes. Controllable growth of carbon nanotubes on graphene sheets was realized through a facile one-pot pyrolysis strategy. The length of the carbon nanotubes could be rationally tuned by adjusting the amount of precursors. Correspondingly, the resulted GN-CNT hybrid showed adjustable electrochemical performance as an SC electrode. Importantly, the GN-CNT exhibited a high specific surface area of 903 m² g^-1 and maximum specific capacitance of 413 F g^-1 as SC electrodes at a scan rate of 5 mV s^-1 in 6 M KOH aqueous solution. This work paves a feasible pathway to prepare carbon electrode materials with favorable 3D architecture and high performance, for use in energy storage and conversion.

源语言	英语
页（从-至）	8497-8504
页数	8
期刊	ACS applied materials & interfaces
卷	6
期	11
DOI	https://doi.org/10.1021/am501362g
出版状态	已出版 - 11 6月 2014

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title = "Controllable growth of CNTs on graphene as high-performance electrode material for supercapacitors",

abstract = "Design and synthesis of three-dimensional (3D) structured carbon materials are crucial for achieving high-performance supercapacitors (SC) for energy storage. Here, we report the preparation of 3D architectured GN-CNT hybrid as SC electrodes. Controllable growth of carbon nanotubes on graphene sheets was realized through a facile one-pot pyrolysis strategy. The length of the carbon nanotubes could be rationally tuned by adjusting the amount of precursors. Correspondingly, the resulted GN-CNT hybrid showed adjustable electrochemical performance as an SC electrode. Importantly, the GN-CNT exhibited a high specific surface area of 903 m2 g-1 and maximum specific capacitance of 413 F g-1 as SC electrodes at a scan rate of 5 mV s-1 in 6 M KOH aqueous solution. This work paves a feasible pathway to prepare carbon electrode materials with favorable 3D architecture and high performance, for use in energy storage and conversion.",

keywords = "3D architecture, carbon nanotube, controllable growth, graphene, one-pot strategy, supercapacitor",

author = "Yang, {Zhi Yu} and Zhao, {Yu Fei} and Xiao, {Qing Qing} and Zhang, {Yu Xia} and Lin Jing and Yan, {Yi Ming} and Sun, {Ke Ning}",

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doi = "10.1021/am501362g",

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T1 - Controllable growth of CNTs on graphene as high-performance electrode material for supercapacitors

AU - Yang, Zhi Yu

AU - Zhao, Yu Fei

AU - Xiao, Qing Qing

AU - Zhang, Yu Xia

AU - Jing, Lin

AU - Yan, Yi Ming

AU - Sun, Ke Ning

PY - 2014/6/11

Y1 - 2014/6/11

N2 - Design and synthesis of three-dimensional (3D) structured carbon materials are crucial for achieving high-performance supercapacitors (SC) for energy storage. Here, we report the preparation of 3D architectured GN-CNT hybrid as SC electrodes. Controllable growth of carbon nanotubes on graphene sheets was realized through a facile one-pot pyrolysis strategy. The length of the carbon nanotubes could be rationally tuned by adjusting the amount of precursors. Correspondingly, the resulted GN-CNT hybrid showed adjustable electrochemical performance as an SC electrode. Importantly, the GN-CNT exhibited a high specific surface area of 903 m2 g-1 and maximum specific capacitance of 413 F g-1 as SC electrodes at a scan rate of 5 mV s-1 in 6 M KOH aqueous solution. This work paves a feasible pathway to prepare carbon electrode materials with favorable 3D architecture and high performance, for use in energy storage and conversion.

AB - Design and synthesis of three-dimensional (3D) structured carbon materials are crucial for achieving high-performance supercapacitors (SC) for energy storage. Here, we report the preparation of 3D architectured GN-CNT hybrid as SC electrodes. Controllable growth of carbon nanotubes on graphene sheets was realized through a facile one-pot pyrolysis strategy. The length of the carbon nanotubes could be rationally tuned by adjusting the amount of precursors. Correspondingly, the resulted GN-CNT hybrid showed adjustable electrochemical performance as an SC electrode. Importantly, the GN-CNT exhibited a high specific surface area of 903 m2 g-1 and maximum specific capacitance of 413 F g-1 as SC electrodes at a scan rate of 5 mV s-1 in 6 M KOH aqueous solution. This work paves a feasible pathway to prepare carbon electrode materials with favorable 3D architecture and high performance, for use in energy storage and conversion.

KW - 3D architecture

KW - carbon nanotube

KW - controllable growth

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KW - one-pot strategy

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Controllable growth of CNTs on graphene as high-performance electrode material for supercapacitors

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