盐模板辅助制备用于高导热环氧复合材料的氮化硼支架

Salt Template Assisted BN Scaffold Fabrication toward Highly Thermally Conductive Epoxy Composites.

作者信息

Chen Xuelong, Lim Jacob Song Kiat, Yan Weili, Guo Fang, Liang Yen Nan, Chen Hui, Lambourne Alexis, Hu Xiao

机构信息

Rolls-Royce@NTU Corporate Lab, Nanyang Technological University, 50 Nanyang Avenue, Singapore 639798.

Temasek Laboratories, Nanyang Technological University, 50 Nanyang Drive, Singapore 637553.

出版信息

ACS Appl Mater Interfaces. 2020 Apr 8;12(14):16987-16996. doi: 10.1021/acsami.0c04882. Epub 2020 Mar 26.

DOI:10.1021/acsami.0c04882

PMID:32196306

Abstract

With the trend of device miniaturization and higher integration, polymer composites with high thermal conductivity are highly desirable for efficient removal of accumulated heat to maintain high performance of electronics. In this work, epoxy composites embedded with three-dimensional hexagonal boron nitride (BN) scaffold were fabricated. The BN-poly(vinylidene difluoride) (PVDF) scaffold was prepared by the salt template method using PVDF as the adhesive, while the corresponding epoxy composite was manufactured with vacuum-assisted impregnation. The epoxy/BN-PVDF composite exhibits high thermal conductivity with low loading of BN. The thermal conductivity of epoxy/BN-PVDF composite achieved 1.227 W/(m K) with 21 wt % BN, contributed by the constructed BN pathway held together by PVDF adhesive. In addition, PVDF could be further converted into carbon by thermal treatment, further enhancing the thermal conductivity of epoxy/BN-C composites through alleviating the phonon scattering at the interfaces, eventually obtaining thermal conductivity of 1.466 W/(m K). This type of epoxy-based composite with high thermal conductivity is promising to be used as thermal management materials in advanced electronic devices.

摘要

随着设备小型化和更高集成度的趋势，具有高导热性的聚合物复合材料对于有效去除积聚的热量以维持电子设备的高性能非常必要。在这项工作中，制备了嵌入三维六方氮化硼（BN）支架的环氧复合材料。BN-聚偏二氟乙烯（PVDF）支架采用盐模板法，以PVDF作为粘合剂制备，而相应的环氧复合材料则通过真空辅助浸渍法制造。环氧/BN-PVDF复合材料在BN负载量较低的情况下表现出高导热性。环氧/BN-PVDF复合材料在BN含量为21 wt%时，热导率达到1.227 W/(m·K)，这得益于由PVDF粘合剂结合在一起的构建的BN通道。此外，PVDF可通过热处理进一步转化为碳，通过减轻界面处的声子散射进一步提高环氧/BN-C复合材料的热导率，最终获得1.466 W/(m·K)的热导率。这种具有高导热性的环氧基复合材料有望用作先进电子设备中的热管理材料。

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盐模板辅助制备用于高导热环氧复合材料的氮化硼支架

Salt Template Assisted BN Scaffold Fabrication toward Highly Thermally Conductive Epoxy Composites.

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