Constructing multi-component materials with dielectric-magnetic synergy effects has been a significant focus of recent works to enhance microwave absorption efficiency. Herein, the top-down exfoliation strategy for forming carboxylated g-C3N4 (CCN)...
The dielectric constant is acted as a descriptor to help reverse the rational design of COF-based photocatalysis with low exciton binding energy to enhance the photocatalytic activity.
Preparation of polymer-based packaging materials with rapid heat dissipation capacity is crucial for ensuring highpower equipment's service life. To achieve this, boron nitride (BN) and multi-walled carbon nanotubes (MWCNTs) were used in different ratios to prepare thermally conductive epoxy composites. These composites were created through a simple mixing and curing process, resulting in a heat transmission path. Then, BN and MWCNTs were separately functionalized with dopamine and acid to enhance their dispersibility and interfacial compatibility within the epoxy resin. This was done to further explore their influence on the formation of serial heat transfer pathways. The BN/ MWCNTs/epoxy composites with a filler ratio of 15:1 and a total filler loading of 30 wt % exhibited a thermal conductivity of 0.92 W/mK, which is 118% higher than pure epoxy. These composites also displayed favorable mechanical properties and thermal stability. This study provides guidance for designing highperformance epoxy composites to meet modern electronic devices' thermal management requirements.
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