Cross-plane heat transfer through single-layer carbon structures

Graphene-based nano-structures have been recently proposed to function as additives to improve the conductivity of thermally sluggish phase change materials (PCMs). Based on the existing research studies, the improvement is dependent not only on the matrix material, but also on the geometry of the c...

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Published inPhysical chemistry chemical physics : PCCP Vol. 18; no. 7; pp. 5358 - 5365
Main Authors Zhang, Huaichen, Nedea, Silvia V, Rindt, Camilo C M, Smeulders, David M J
Format Journal Article
LanguageEnglish
Published England 21.02.2016
Subjects
Carbon
Conduction
Graphene
Heat conduction
Heat transfer
Matrix materials
Nanostructure
Thermal resistance
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Summary:Graphene-based nano-structures have been recently proposed to function as additives to improve the conductivity of thermally sluggish phase change materials (PCMs). Based on the existing research studies, the improvement is dependent not only on the matrix material, but also on the geometry of the carbon structure. To gain more insight into the nano-scale thermal transport problem, we launched the current pilot research using water as the matrix material, to represent the hydroxyl-group-rich sugar alcohols as PCMs. We have found that the heat conduction across a graphene layer to water is much faster than the heat conduction to the graphene layer itself. Also, the high graphene-water thermal contact resistance fails to acknowledge the fast thermal kinetics of the low frequency phonons. In the investigation of the geometry effect, the cross-plane heat transfer coefficient is found to decrease with decreasing CNT diameter except CNT(9,9).
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ISSN:1463-9076
1463-9084
DOI:10.1039/c5cp07715j