An ultrahigh volumetric capacitance of squeezable three-dimensional bicontinuous nanoporous graphene

H. J. Qiu; L. Y. Chen; Y. Ito; J. L. Kang; X. W. Guo; P. Liu; H. Kashani; A. Hirata; T. Fujita; M. W. Chen

doi:10.1039/c5nr08852f

An ultrahigh volumetric capacitance of squeezable three-dimensional bicontinuous nanoporous graphene

H. J. Qiu, L. Y. Chen, Y. Ito, J. L. Kang, X. W. Guo, P. Liu, H. Kashani, A. Hirata, T. Fujita, M. W. Chen^*

^*この研究の対応する著者

研究成果: Article › 査読

14 被引用数 (Scopus)

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Graphene with a large specific surface area and high conductivity has a large specific capacitance. However, its volumetric capacitance is usually very low because the restacking of 2D graphene sheets leads to the loss of the large ion-accessible surface area. Here we report squeezable bicontinuous nanoporous nitrogen-doped graphene, which is extremely flexible and can tolerate large volume contraction by mechanical compression without the face-to-face restacking occurring. The compressed nanoporous N-doped graphene with a large ion accessible surface area and high conductivity shows an ultrahigh volumetric capacitance of ∼300 F cm^-3 together with excellent cycling stability and high rate performance.

本文言語	English
ページ（範囲）	18551-18557
ページ数	7
ジャーナル	Nanoscale
巻	8
号	43
DOI	https://doi.org/10.1039/c5nr08852f
出版ステータス	Published - 2016 11月 21
外部発表	はい

ASJC Scopus subject areas

材料科学（全般）

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10.1039/c5nr08852f

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abstract = "Graphene with a large specific surface area and high conductivity has a large specific capacitance. However, its volumetric capacitance is usually very low because the restacking of 2D graphene sheets leads to the loss of the large ion-accessible surface area. Here we report squeezable bicontinuous nanoporous nitrogen-doped graphene, which is extremely flexible and can tolerate large volume contraction by mechanical compression without the face-to-face restacking occurring. The compressed nanoporous N-doped graphene with a large ion accessible surface area and high conductivity shows an ultrahigh volumetric capacitance of ∼300 F cm-3 together with excellent cycling stability and high rate performance.",

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AU - Qiu, H. J.

AU - Chen, L. Y.

AU - Ito, Y.

AU - Kang, J. L.

AU - Guo, X. W.

AU - Liu, P.

AU - Kashani, H.

AU - Hirata, A.

AU - Fujita, T.

AU - Chen, M. W.

PY - 2016/11/21

Y1 - 2016/11/21

N2 - Graphene with a large specific surface area and high conductivity has a large specific capacitance. However, its volumetric capacitance is usually very low because the restacking of 2D graphene sheets leads to the loss of the large ion-accessible surface area. Here we report squeezable bicontinuous nanoporous nitrogen-doped graphene, which is extremely flexible and can tolerate large volume contraction by mechanical compression without the face-to-face restacking occurring. The compressed nanoporous N-doped graphene with a large ion accessible surface area and high conductivity shows an ultrahigh volumetric capacitance of ∼300 F cm-3 together with excellent cycling stability and high rate performance.

AB - Graphene with a large specific surface area and high conductivity has a large specific capacitance. However, its volumetric capacitance is usually very low because the restacking of 2D graphene sheets leads to the loss of the large ion-accessible surface area. Here we report squeezable bicontinuous nanoporous nitrogen-doped graphene, which is extremely flexible and can tolerate large volume contraction by mechanical compression without the face-to-face restacking occurring. The compressed nanoporous N-doped graphene with a large ion accessible surface area and high conductivity shows an ultrahigh volumetric capacitance of ∼300 F cm-3 together with excellent cycling stability and high rate performance.

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An ultrahigh volumetric capacitance of squeezable three-dimensional bicontinuous nanoporous graphene

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