Significant Reduction of Interfacial Thermal Resistance and Phonon Scattering in Graphene/Polyimide Thermally Conductive Composite Films for Thermal Management

材料科学 石墨烯 热导率 聚酰亚胺 复合数 声子散射 热传导 复合材料 热的 散射 界面热阻 声子 导电聚合物 热阻 导电体 聚合物 凝聚态物理 纳米技术 图层(电子) 光学 热力学 物理
作者
Kunpeng Ruan,Yongqiang Guo,Chuyao Lu,Xuetao Shi,Tengbo Ma,Yali Zhang,Jie Kong,Junwei Gu
出处
期刊:Research [American Association for the Advancement of Science]
卷期号:2021: 8438614-8438614 被引量:143
标识
DOI:10.34133/2021/8438614
摘要

The developing flexible electronic equipment are greatly affected by the rapid accumulation of heat, which is urgent to be solved by thermally conductive polymer composite films. However, the interfacial thermal resistance (ITR) and the phonon scattering at the interfaces are the main bottlenecks limiting the rapid and efficient improvement of thermal conductivity coefficients ( λ ) of the polymer composite films. Moreover, few researches were focused on characterizing ITR and phonon scattering in thermally conductive polymer composite films. In this paper, graphene oxide (GO) was aminated (NH 2 -GO) and reduced (NH 2 -rGO), then NH 2 -rGO/polyimide (NH 2 -rGO/PI) thermally conductive composite films were fabricated. Raman spectroscopy was utilized to innovatively characterize phonon scattering and ITR at the interfaces in NH 2 -rGO/PI thermally conductive composite films, revealing the interfacial thermal conduction mechanism, proving that the amination optimized the interfaces between NH 2 -rGO and PI, reduced phonon scattering and ITR, and ultimately improved the interfacial thermal conduction. The in-plane λ ( λ ) and through-plane λ ( λ ) of 15 wt% NH 2 -rGO/PI thermally conductive composite films at room temperature were, respectively, 7.13 W/mK and 0.74 W/mK, 8.2 times λ (0.87 W/mK) and 3.5 times λ (0.21 W/mK) of pure PI film, also significantly higher than λ (5.50 W/mK) and λ (0.62 W/mK) of 15 wt% rGO/PI thermally conductive composite films. Calculation based on the effective medium theory model proved that ITR was reduced via the amination of rGO. Infrared thermal imaging and finite element simulation showed that NH 2 -rGO/PI thermally conductive composite films obtained excellent heat dissipation and efficient thermal management capabilities on the light-emitting diodes bulbs, 5G high-power chips, and other electronic equipment, which are easy to generate heat severely.
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