Length-dependent thermal conductivity in suspended single-layer graphene

被引:0
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作者
Xiangfan Xu
Luiz F. C. Pereira
Yu Wang
Jing Wu
Kaiwen Zhang
Xiangming Zhao
Sukang Bae
Cong Tinh Bui
Rongguo Xie
John T. L. Thong
Byung Hee Hong
Kian Ping Loh
Davide Donadio
Baowen Li
Barbaros Özyilmaz
机构
[1] National University of Singapore,Department of Physics
[2] Graphene Research Center,Department of Electrical and Computer Engineering
[3] National University of Singapore,Department of Chemistry
[4] NanoCore,Department of Chemistry
[5] 4 Engineering Drive 3,undefined
[6] National University of Singapore,undefined
[7] Max Planck Institute for Polymer Research,undefined
[8] State Key Laboratory of Multiphase Complex Systems,undefined
[9] Institute of Process Engineering,undefined
[10] Chinese Academy of Science,undefined
[11] Centre for Computational Science and Engineering,undefined
[12] National University of Singapore,undefined
[13] SKKU Advanced Institute of Nanotechnology (SAINT) and Center for Human Interface Nano Technology (HINT),undefined
[14] Sungkyunkwan University,undefined
[15] NUS Graduate School for Integrative Science and Engineering,undefined
[16] National University of Singapore,undefined
[17] Seoul National University,undefined
[18] National University of Singapore,undefined
[19] Present address: Center for Phononics and Thermal Energy Science,undefined
[20] School of Physical Science and Engineering,undefined
[21] Tongji University,undefined
[22] Shanghai 200092,undefined
[23] China,undefined
[24] Present address: Departamento de Física Teórica e Experimental,undefined
[25] Universidade Federal do Rio Grande do Norte,undefined
[26] Natal-RN 59078-900,undefined
[27] Brazil,undefined
来源
Nature Communications | / 5卷
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摘要
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal conductivity. Being a very stable atomically thick membrane that can be suspended between two leads, graphene provides a perfect test platform for studying thermal conductivity in two-dimensional systems, which is of primary importance for phonon transport in low-dimensional materials. Here we report experimental measurements and non-equilibrium molecular dynamics simulations of thermal conduction in suspended single-layer graphene as a function of both temperature and sample length. Interestingly and in contrast to bulk materials, at 300 K, thermal conductivity keeps increasing and remains logarithmically divergent with sample length even for sample lengths much larger than the average phonon mean free path. This result is a consequence of the two-dimensional nature of phonons in graphene, and provides fundamental understanding of thermal transport in two-dimensional materials.
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