Swift isotropic heat transport of 3D graphene platform-based metal-graphene composites

Authors
Ryu, H.Rho, H.Lee, S.W.Lee, S.-K.Lee, H.Bae, S.Kim, T.-W.Cho, M.W.Ha, J.-S.Lee, S.H.
Issue Date
2021-10-15
Publisher
Elsevier Ltd
Citation
Carbon, v.183, pp.93 - 99
Abstract
Despite the remarkable thermal properties of graphene, the heat transport along the z-axis is intrinsically limited by the van der Waals interactions, leading to thermal anisotropy in multilayered graphene (or graphite) and its composites. Herein, we report a graphene foam (GF) with three-dimensional (3D) pore structure-based metal composites with excellent isotropic thermal conductivity and fast heat transfer performance. The 3D periodic structure of the GF?copper composites composed of high-quality multilayer graphene and copper was formed via a chemical vapor deposition (CVD) and a spark plasma sintering (SPS) process. The high-quality graphene layers in GF were well-bonded to copper, forming a clear interface without voids in the consolidated composites. Owing to the uniform 3D interconnection of graphene layer in the GF, in spite of less than 1 vol% carbon in the copper matrix, the GF?copper composites showed high isotropic thermal conductivity, which was higher by about 11 and 6% for in-plane and through-plane, respectively, than those of the bulk copper (∼400 W m?1 K?1). The superior performance of the 3D graphene-based metal?carbon composites offers remarkable opportunities in thermal management for advanced electronic and optoelectronic devices requiring high power density and efficiency. ? 2021
Keywords
Carbon carbon composites; Chemical vapor deposition; Copper; Foams; Heat transfer; Metallic matrix composites; Spark plasma sintering; Thermal conductivity; Van der Waals forces; 3-dimensional; 3D graphene; Copper-composites; Graphene foams; Graphene layers; Heat transport; High quality; Isotropics; Metal-carbon composite; Thermal; Graphene; Carbon carbon composites; Chemical vapor deposition; Copper; Foams; Heat transfer; Metallic matrix composites; Spark plasma sintering; Thermal conductivity; Van der Waals forces; 3-dimensional; 3D graphene; Copper-composites; Graphene foams; Graphene layers; Heat transport; High quality; Isotropics; Metal-carbon composite; Thermal; Graphene; 3-Dimensional; Graphene; Heat transfer; Isotropic; Metal-carbon composites; Thermal conductivity
ISSN
0008-6223
URI
https://pubs.kist.re.kr/handle/201004/116260
DOI
10.1016/j.carbon.2021.07.008
Appears in Collections:
KIST Article > 2021
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