Reducing thermal contact resistance by a novel elastomeric polyethylene glycol/unsaturated polyester resin/graphene thermal interface materials-Reference-Cited by-同舟云学术

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Reducing thermal contact resistance by a novel elastomeric polyethylene glycol/unsaturated polyester resin/graphene thermal interface materials

Published:2021-10 Issue: Volume:127 Page:105553
ISSN:0735-1933
Container-title:International Communications in Heat and Mass Transfer
language:en
Short-container-title:International Communications in Heat and Mass Transfer

Author:

Liu Changqing,Yu Wei,Yang Jiawei,Zhang Yuan,Xie Huaqing

Publisher

Elsevier BV

Subject

Condensed Matter Physics,General Chemical Engineering,Atomic and Molecular Physics, and Optics

Reference35 articles.

1. Thermal properties of graphene and multilayer graphene: applications in thermal interface materials;Shahil;Solid State Commun.,2012

2. Graphene-multilayer graphene nanocomposites as highly efficient thermal interface materials;Shahil;Nano Lett.,2012

3. Metal-level thermally conductive yet soft graphene thermal interface materials;Dai;ACS Nano,2019

4. Thermal properties of the hybrid graphene-metal nano-micro-composites: applications in thermal interface materials;Goyala;Appl. Phys. Lett.,2012

5. Highly thermal conductive copper nanowire composites with ultralow loading: toward applications as thermal interface materials;Wang;ACS Appl. Mater. Interfaces,2014

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1. Towards high-performance polydimethylsiloxane-based materials for thermal management: A molecular dynamics study;International Communications in Heat and Mass Transfer;2024-11

2. Open package form-stable phase change microspheres with low thermal contact resistance for the thermal management of electronic devices;Applied Thermal Engineering;2024-03

3. Experimental Investigations on the Thermal Contact Conductance Using Al2O3 Nanoparticles in the Interfacial Material;Lecture Notes in Mechanical Engineering;2024

4. A critical review of carbon-based thermal interface materials;Materials Chemistry and Physics;2023-11

5. Covalently Functionalized Leakage‐Free Healable Phase‐Change Interface Materials with Extraordinary High‐Thermal Conductivity and Low‐Thermal Resistance;Advanced Materials;2023-06-09

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