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Significantly enhancing the through-plane thermal conductivity of epoxy dielectrics by constructing aramid nanofiber/boron nitride three-dimensional interconnected framework

Junwen Ren, Ruichi Zeng, Jun Yang, Zi Wang, Zhong Wang, Lihua Zhao, Guolong Wang, Shenli Jia

2024Journal of Applied Physics33 citationsDOIOpen Access PDF

Abstract

Epoxy dielectrics with high through-plane thermal conductivity (λ) hold great promise for applications in the thermal management of advanced power electronics. Intensive attempts have been made to improve the λ of epoxy by filling with boron nitride nanosheets (BNNSs). However, it remains a great challenge to achieve a satisfactory increased λ by a small amount of BNNS loading. Herein, we reported a new strategy to prepare epoxy dielectrics with internal three-dimensional phonon transport channels by vacuum freeze-drying and vacuum impregnation. Aramid nanofibers (ANFs) and BNNSs were used for the collaborative construction of a vertical interconnected thermal framework. The resultant ANF-BNNS/epoxy achieved a high through-plane λ of 0.87 W m−1 K−1 at only 1.43 vol. % BNNS, which is ∼17.1% higher than that of the BNNS/epoxy counterpart with even 18.34 vol. % randomly distributed BNNS. The increasing efficiency of λ of epoxy by ANF-BNNS is tenfold more than that of the conventional blending methods. In addition, the ANF-BNNS/epoxy composite also exhibits a low dielectric constant and low dielectric loss. The findings of this study offer an inspired venue to develop high-performance thermally conductive epoxy dielectrics with a minimal BNNS loading.

Topics & Concepts

Boron nitrideAramidEpoxyDielectricMaterials scienceThermal conductivityBoronComposite materialNanofiberConductivityNitrideOptoelectronicsChemistryPhysical chemistryLayer (electronics)FiberOrganic chemistryThermal properties of materialsDielectric materials and actuatorsSynthesis and properties of polymers
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