期刊
CHEMISTRY OF MATERIALS
卷 28, 期 17, 页码 6096-6104出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.chemmater.6b01595
关键词
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资金
- NSFC [51102151, 51372143, 50990061, 21073107]
- Natural Science Foundation of Shandong Province [ZR2011EMQ002, 2013GGX10208]
- Independent Innovation Foundation of Shandong University [2012GN051]
Efficient removal of heat via thermal interface materials has become one of the most critical challenges in the development of modern microelectronic devices. However, traditional polymer composites present limited thermal conductivity even when highly loaded with highly thermally conductive fillers due to the lack of efficient heat transfer channels. In this work, vertically aligned and interconnected graphene networks are first used as the filler, which is prepared by a controlled three-step procedure: formation of graphene oxide liquid crystals, oriented freeze casting, and high temperature annealing reduction under Ar. The obtained composite, at an ultralow graphene loading of 0.92 vol %, exhibits a high thermal conductivity (2.13 W m(-1) K-1) that is equivalent to a dramatic enhancement of 1231% compared to the pure matrix. Furthermore, the composite also presents a much reduced coefficient of thermal expansion (similar to 37.4 ppm K-1) and increased glass transition temperature (135.4 degrees C). This strategy provides an insight for the design of high-performance composites with potential to be used in advanced electronic packaging.
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