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High porosity and light weight graphene foam heat sink and phase change material container for thermal management

Abdelhafid Zehri, Majid Kabiri Samani, Martí Gutierrez Latorre, Andreas Nylander, Torbjörn Nilsson, Yifeng Fu, Nan Wang, Lilei Ye, Johan Liu

2020Nanotechnology31 citationsDOIOpen Access PDF

Abstract

Abstract During the last decade, graphene foam emerged as a promising high porosity 3-dimensional (3D) structure for various applications. More specifically, it has attracted significant interest as a solution for thermal management in electronics. In this study, we investigate the possibility to use such porous materials as a heat sink and a container for a phase change material (PCM). Graphene foam (GF) was produced using chemical vapor deposition (CVD) process and attached to a thermal test chip using sintered silver nanoparticles (Ag NPs). The thermal conductivity of the graphene foam reached 1.3 W m −1 K −1 , while the addition of Ag as a graphene foam silver composite (GF/Ag) enhanced further its effective thermal conductivity by 54%. Comparatively to nickel foam, GF and GF/Ag showed lower junction temperatures thanks to higher effective thermal conductivity and a better contact. A finite element model was developed to simulate the fluid flow through the foam structure model and showed a positive and a non-negligible contributions of the secondary microchannel within the graphene foam. A ratio of 15 times was found between the convective heat flux within the primary and secondary microchannel. Our paper successfully demonstrates the possibility of using such 3D porous material as a PCM container and heat sink and highlight the advantage of using the carbon-based high porosity material to take advantage of its additional secondary porosity.

Topics & Concepts

Materials scienceThermal conductivityPorosityGrapheneComposite materialHeat sinkCarbon nanofoamGraphene foamChemical vapor depositionMicrochannelNanotechnologyGraphene nanoribbonsThermodynamicsPhysicsPhase Change Materials ResearchHeat and Mass Transfer in Porous MediaThermal properties of materials
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