Simultaneous measurement of electrical and thermal conductivities of suspended monolayer graphene

Haidong Wang; Kosaku Kurata; Takanobu Fukunaga; Hiroki Ago; Hiroshi Takamatsu; Xing Zhang; Tatsuya Ikuta; Koji Takahashi; Takashi Nishiyama; Yasuyuki Takata

doi:10.1063/1.4954677

Simultaneous measurement of electrical and thermal conductivities of suspended monolayer graphene

Haidong Wang, Kosaku Kurata, Takanobu Fukunaga, Hiroki Ago, Hiroshi Takamatsu, Xing Zhang, Tatsuya Ikuta, Koji Takahashi, Takashi Nishiyama, Yasuyuki Takata

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

15 被引用数 (Scopus)

抄録

We measured both in-plane electrical and thermal properties of the same suspended monolayer graphene using a novel T-type sensor method. At room temperature, the values are about 240 000 Ω^-1 m^-1 and 2100 W m^-1 K^-1 for the electrical and thermal conductivities, respectively. Based on the Wiedemann-Franz law, the electrons have negligible contribution to the thermal conductivity of graphene, while the in-plane LA and TA modes phonons are the dominant heat carriers. In monolayer graphene, the absence of layer-layer and layer-substrate interactions enhances the contribution of long wave-length phonons to the heat transport and increases the thermal conductivity accordingly. The reported method and experimental data of suspended monolayer graphene are useful for understanding the basic physics and designing the future graphene electronic devices.

本文言語	英語
論文番号	244306
ジャーナル	Journal of Applied Physics
巻	119
号	24
DOI	https://doi.org/10.1063/1.4954677
出版ステータス	出版済み - 6月 28 2016

!!!All Science Journal Classification (ASJC) codes

物理学および天文学（全般）

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10.1063/1.4954677

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title = "Simultaneous measurement of electrical and thermal conductivities of suspended monolayer graphene",

abstract = "We measured both in-plane electrical and thermal properties of the same suspended monolayer graphene using a novel T-type sensor method. At room temperature, the values are about 240 000 Ω-1 m-1 and 2100 W m-1 K-1 for the electrical and thermal conductivities, respectively. Based on the Wiedemann-Franz law, the electrons have negligible contribution to the thermal conductivity of graphene, while the in-plane LA and TA modes phonons are the dominant heat carriers. In monolayer graphene, the absence of layer-layer and layer-substrate interactions enhances the contribution of long wave-length phonons to the heat transport and increases the thermal conductivity accordingly. The reported method and experimental data of suspended monolayer graphene are useful for understanding the basic physics and designing the future graphene electronic devices.",

author = "Haidong Wang and Kosaku Kurata and Takanobu Fukunaga and Hiroki Ago and Hiroshi Takamatsu and Xing Zhang and Tatsuya Ikuta and Koji Takahashi and Takashi Nishiyama and Yasuyuki Takata",

note = "Funding Information: The work is supported by the JSPS KAKENHI Grant-in-Aid for Young Scientists B (No. 15K17987), Research of Development of Young Researchers in Kyushu University (2015), and National Natural Science Foundation of China Grant Nos. 51327001, 51136001, and 51356001. Publisher Copyright: {\textcopyright} 2016 Author(s).",

year = "2016",

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doi = "10.1063/1.4954677",

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T1 - Simultaneous measurement of electrical and thermal conductivities of suspended monolayer graphene

AU - Wang, Haidong

AU - Kurata, Kosaku

AU - Fukunaga, Takanobu

AU - Ago, Hiroki

AU - Takamatsu, Hiroshi

AU - Zhang, Xing

AU - Ikuta, Tatsuya

AU - Takahashi, Koji

AU - Nishiyama, Takashi

AU - Takata, Yasuyuki

N1 - Funding Information: The work is supported by the JSPS KAKENHI Grant-in-Aid for Young Scientists B (No. 15K17987), Research of Development of Young Researchers in Kyushu University (2015), and National Natural Science Foundation of China Grant Nos. 51327001, 51136001, and 51356001. Publisher Copyright: © 2016 Author(s).

PY - 2016/6/28

Y1 - 2016/6/28

N2 - We measured both in-plane electrical and thermal properties of the same suspended monolayer graphene using a novel T-type sensor method. At room temperature, the values are about 240 000 Ω-1 m-1 and 2100 W m-1 K-1 for the electrical and thermal conductivities, respectively. Based on the Wiedemann-Franz law, the electrons have negligible contribution to the thermal conductivity of graphene, while the in-plane LA and TA modes phonons are the dominant heat carriers. In monolayer graphene, the absence of layer-layer and layer-substrate interactions enhances the contribution of long wave-length phonons to the heat transport and increases the thermal conductivity accordingly. The reported method and experimental data of suspended monolayer graphene are useful for understanding the basic physics and designing the future graphene electronic devices.

AB - We measured both in-plane electrical and thermal properties of the same suspended monolayer graphene using a novel T-type sensor method. At room temperature, the values are about 240 000 Ω-1 m-1 and 2100 W m-1 K-1 for the electrical and thermal conductivities, respectively. Based on the Wiedemann-Franz law, the electrons have negligible contribution to the thermal conductivity of graphene, while the in-plane LA and TA modes phonons are the dominant heat carriers. In monolayer graphene, the absence of layer-layer and layer-substrate interactions enhances the contribution of long wave-length phonons to the heat transport and increases the thermal conductivity accordingly. The reported method and experimental data of suspended monolayer graphene are useful for understanding the basic physics and designing the future graphene electronic devices.

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JO - Journal of Applied Physics

JF - Journal of Applied Physics

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Simultaneous measurement of electrical and thermal conductivities of suspended monolayer graphene

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