4.8 Article

Synergistic enhancement of thermal conduction and microwave absorption of silica films based on graphene/chiral PPy/Al2O3 ternary aerogels

Journal

CARBON
Volume 199, Issue -, Pages 1-12

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.carbon.2022.07.060

Keywords

Ternary aerogels; Thermal conduction; Microwave absorption; Electrical insulation; Synergistic enhancement mechanism

Funding

  1. National Natural Science Foundation of China [52073260]
  2. Public Utility Items of Zhejiang Province [LGG21E020002]
  3. Industrial Key Projects of Jinhua City [2019A12238]
  4. Self-Topic Fund of Zhejiang Normal University [2020ZS04]

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This paper presents the development of graphene/PPy/Al2O3 ternary aerogels as advanced membrane fillers for enhanced thermal conduction, EM wave absorption, and electrical insulation. The ternary aerogels demonstrate wide absorption frequency band, high thermal conduction, and excellent electrical insulation, surpassing most reported fillers.
Severe problems of heat dissipation and electromagnetic (EM) interference are quite detrimental to modern electronics, prompting researchers to develop advanced integrated materials of thermal conduction, microwave absorption, and electrical insulation. However, their simultaneous improvement is restricted by some inevitable contradictions among them. Herein, we pioneered graphene (GN)/PPy/Al2O3 ternary aerogels as an advanced membrane filler for a synergistic enhancement of thermal conduction, EM wave absorption, and electrical insulation. GN/PPy/Al2O3 ternary aerogels are produced via a simple solution blending and vacuum freeze-drying process, and then filled into silica oils to form silica gel films via a hot-pressing process. A few thermal conduction-electric conductivity-type graphene and PPy (3-5 wt%) were uniformly dispersed in thermal conduction-electrical insulation-type Al2O3 nanoparticles, forming multiple polarizations and constructing an effective heat-conducting but electrical-insulating pathway for phonon transmission. In this case, GN/PPy/Al2O3 ternary aerogels (1:1:15, 50% loading) possessed a wide absorption frequency band (6.48 GHz, 2.0 mm thickness), high thermal conduction (4.649 W/(mmiddotK)), and excellent electrical insulation (sigma = 0.0282 S/m). Notably, their thermal conduction and microwave absorption abilities significantly outperform most reported fillers. This paper provides a simple and effective method for designing advanced thermal conduction-microwave absorption-electrical insulation integrated materials with great potential in modern electronics.

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