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High-Temperature Electromagnetic and Thermal Characteristics of Graphene Composites

We describe a method for scalable synthesis of epoxy composites with graphene and few-layer graphene fillers, and report on the electromagnetic interference (EMI) shielding and thermal properties of such composites at elevated temperatures. The tested materials reveal excellent total EMI shielding of ~65 dB (~105 dB) at a thickness of 1 mm(~2 mm) in the X-band frequency range of f=8.2 GHz - 12.4 GHz. The room-temperature cross-plane thermal conductivity of the composite with ~19.5 vol.% of fillers was determined to be ~11.2 W/mK, which is a factor of x41 larger than that of the pristine epoxy. Interestingly, the EMI shielding efficiency improves further as the temperature increases to 520 K while the thermal conductivity remains approximately constant. The excellent EMI shielding and heat conduction characteristics of such multifunctional graphene composites at elevated temperatures are promising for packaging applications of microwave components where EMI shielding and thermal management are important design considerations.

preprint2020arXivOpen access
Zahra BaraniFariborz KargarAmirmahdi MohammadzadehSahar NaghibiCarissa LoBrandon RiveraAlexander A. Balandin
physics.app-ph
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Zahra BaraniFariborz KargarAmirmahdi MohammadzadehSahar NaghibiCarissa LoBrandon RiveraAlexander A. Balandin

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