Diameter-dependent thermal conductivity of carbon nanotubes

IF 11.2 1区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Hai-Bo Zhao, Dai-Ming Tang, Lili Zhang, Meng-Ke Zou, Rui-Hong Xie, Chang Liu, Hui-Ming Cheng
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引用次数: 0

Abstract

Carbon nanotubes are uniquely featured by the nanoscale tubular structure with a highly-curved surface and defined chirality. The diameter and chirality fundamentally determine their stability and electrical and thermal properties. Up to now, the relationship between the intrinsic thermal conductivity and the atomic features of CNTs has not been established, due to the challenges in precise measurements and characterizations. In this work, we develop a micro electro-thermal device enabling simultaneous thermal measurements by Raman spectroscopy and atomic structural characterization by transmission electron microscopy for individual CNTs. The influence of diameter and chirality is systematically investigated. In addition, the temperature dependence of the thermal conductivity was extracted from parameter optimization of finite-element modeling. It is found that the thermal transport of CNTs depends mainly on the diameter, while the chiral angle has no significant influence. Along with increasing diameter, the room temperature thermal conductivity increases and eventually approaches the limit of flat graphene.

Abstract Image

碳纳米管的热导率与直径有关
碳纳米管是一种独特的纳米级管状结构,具有高度弯曲的表面和明确的手性。直径和手性从根本上决定了其稳定性、电学和热学特性。迄今为止,由于精确测量和表征方面的挑战,CNTs 的固有热导率与原子特征之间的关系尚未确定。在这项工作中,我们开发了一种微型电热装置,可同时利用拉曼光谱进行热测量,并利用透射电子显微镜对单个 CNT 进行原子结构表征。我们系统地研究了直径和手性的影响。此外,还从有限元建模的参数优化中提取了热导率的温度依赖性。研究发现,碳纳米管的热传导主要取决于直径,而手性角则无明显影响。随着直径的增大,室温热导率也随之增大,并最终接近平面石墨烯的极限。
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来源期刊
Journal of Materials Science & Technology
Journal of Materials Science & Technology 工程技术-材料科学:综合
CiteScore
20.00
自引率
11.00%
发文量
995
审稿时长
13 days
期刊介绍: Journal of Materials Science & Technology strives to promote global collaboration in the field of materials science and technology. It primarily publishes original research papers, invited review articles, letters, research notes, and summaries of scientific achievements. The journal covers a wide range of materials science and technology topics, including metallic materials, inorganic nonmetallic materials, and composite materials.
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