Improving thermal conductivity through welding boron nitride nanosheets onto silver nanowires via silver nanoparticles

Improving thermal conductivity through welding boron nitride nanosheets onto silver nanowires via silver nanoparticles

Enhancing the thermal conductivity of polymers is important for their critical applications in all heat exchangers and electronic packaging. However, owing to the existence of interfacial thermal resistance (ITR), the overall thermal conductivity of the polymer composites cannot meet the requirement...

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Bibliographic Details
Published in:Composites science and technology Vol. 177; pp. 118 - 126
Main Authors: Fu, Chenjie, Yan, Changzeng, Ren, Linlin, Zeng, Xiaoliang, Du, Guoping, Sun, Rong, Xu, Jianbin, Wong, Ching-Ping
Format: Journal Article
Language:English
Published: Barking Elsevier Ltd 16-06-2019
Elsevier BV
Subjects:
Boron nitride
Boron-epoxy composites
Conductivity
Design optimization
Electronic packaging
Epoxy resins
Fillers
Heat conductivity
Heat exchangers
Heat transfer
Interface
Nano composites
Nano particles
Nanoparticles
Nanosheets
Nanowires
Polymer matrix composites
Polymer-matrix composites (PMCs)
Silver
Thermal conductivity
Thermal properties
Thermal resistance
Thermal properties
Nano composites
Polymer-matrix composites (PMCs)
Interface
Nano particles
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Summary:Enhancing the thermal conductivity of polymers is important for their critical applications in all heat exchangers and electronic packaging. However, owing to the existence of interfacial thermal resistance (ITR), the overall thermal conductivity of the polymer composites cannot meet the requirements of the electronics industry. Here, we propose an approach to decreasing the ITR by both improving the contact area and the interconnection between fillers. An increase in out-of-plane thermal conductivity (0.804 W m−1 K−1) is observed in the silver nanoparticles (AgNPs)-boron nitride nanosheet (BNNS)/silver nanowires (Ag NW)/epoxy composites, which is 2.4 times higher than that of the BNNS/epoxy composites. Fitting the measured thermal conductivity of composites with Foygel model indicates that ITR can be reduced effectively when the contact and the interactions of the fillers is optimized. The proposed design methodology here potentially paves the way for designing and preparing higher thermal conductive materials in the future.
ISSN:0266-3538
1879-1050
DOI:10.1016/j.compscitech.2019.04.026