2022
DOI: 10.3390/nano12030446
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The Investigation of the Effect of Filler Sizes in 3D-BN Skeletons on Thermal Conductivity of Epoxy-Based Composites

Abstract: Thermally conductive and electrically insulating materials have attracted much attention due to their applications in the field of microelectronics, but through-plane thermal conductivity of materials is still low at present. In this paper, a simple and environmentally friendly strategy is proposed to improve the through-plane thermal conductivity of epoxy composites using a 3D boron nitride (3D-BN) framework. In addition, the effect of filler sizes in 3D-BN skeletons on thermal conductivity was investigated. … Show more

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Cited by 77 publications
(40 citation statements)
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“…It showed 502% and 1914% enhancement compared to OH-h-BN/CS nanocomposites and pure chitosan, respectively 109 . A simple and environmentally friendly strategy was reported to fabricate epoxy/BN composites 110 . The synthesis method improved the through-plane TC of the prepared composite.…”
Section: Thermal Conductivity For Biodegradable Polymer Nanocompositesmentioning
confidence: 99%
“…It showed 502% and 1914% enhancement compared to OH-h-BN/CS nanocomposites and pure chitosan, respectively 109 . A simple and environmentally friendly strategy was reported to fabricate epoxy/BN composites 110 . The synthesis method improved the through-plane TC of the prepared composite.…”
Section: Thermal Conductivity For Biodegradable Polymer Nanocompositesmentioning
confidence: 99%
“…It showed 502% and 1914% enhancement compared to OH-h-BN/CS nanocomposites and pure chitosan, respectively [149]. A simple and environmentally friendly strategy was reported to fabricate epoxy/BN composites [150]. The synthesis method improved the through-plane TC of the prepared composite.…”
Section: Thermal Conductivity For Biodegradable Polymer Nanocompositesmentioning
confidence: 99%
“…In this study, we focused on developing high-performance Eu 3+ :Y 2 (MoO 4 ) 3 inorganic red-emitting material [ 19 , 20 , 21 , 22 ]. The energy-level structure of Eu 3+ embedded in a medium is formed by several perturbations acting on the Eu 3+ ion, including electron repulsion, spin–orbit coupling, and crystal field perturbation [ 11 , 23 ]. Together, the electron repulsion and spin–orbit coupling decide the Eu 3+ energy levels of 7 F J and 5 D J that basically determine the excellent photoluminescence performance of Eu 3+ .…”
Section: Introductionmentioning
confidence: 99%