writer：Yingchun Liu, Zhaoson Hu, Haohan Wu and et al
keywords：Polymeric composite, Thermal conductive network, Interface thermal resistance, Thermal conductivity, Dielectric properties
source：期刊
specific source：Chemical Engineering Journal
Issue time：2022年
Developing high-performance thermal management materials with continuous thermal conductive networks (TCN) and low interface thermal resistance (ITR) remains challenging for heat dissipation of modern electronics. Here, a multiscale BN modulation strategy for preparing dense TCN of polymer composites and decreasing simultaneously the ITR is demonstrated. As a result, the composites in this system show further thermal conductivity (κ) enhancement (25.1%) compared with single kinds of filler systems, promoting the κ of neat polymer by ～9 times (1.957 W m^-1 K^-1), and showing a relatively high κ enhancement (～800%). Based on the experimental and theoretical simulation results, the ITR decreased by ～25% compared to that of conventional mixed systems, which is in accordance with κ enhancement results, indicating this method can enable efficient interconnection of fillers and dense TCNs. Meanwhile, it also presents superior dielectric properties (the dielectric constant and loss are 3.17 and 0.018, respectively.) and thermal stability (char yield is up to 72.70%, THRI is >269 °C.). This work provides valuable guidance for designing efficient TCN in composites and demonstrates their potential application in electronic packaging and thermal management of electronics.