材料科学
微波食品加热
热导率
碳纤维
吸收(声学)
复合材料
电导率
工程物理
复合数
物理化学
化学
物理
量子力学
工程类
作者
Zheng-xuan Li,Xi Wu,Bo Jiang,Yang Wang,Junyan Dong,Zhaonan Ding,Chen Zhang,Shaoxiong Du,Siyuan Li,Ruoyao Feng,Yong-feng LI
标识
DOI:10.1016/s1872-5805(25)60948-6
摘要
The ever-increasing integration of electronic devices has inevitably caused electromagnetic interference and heat accumulation problems, and dual-function materials with both a high thermal conductivity and high electromagnetic wave absorption (EWA) are regarded as an effective strategy for solving these problems. Carbon materials are widely used as thermal and EWA fillers due to their excellent conductivity and outstanding thermal conduction properties, and have become a research hotspot in the field of high thermal conductivity, microwave absorbing materials in recent years. The status of current research progress on carbon-based high thermalconduction microwave absorption materials, including carbon fibers, carbon nanotubes, graphene and amorphous carbon, is reviewed, and the influence of the structure of the materials on their absorption and thermal conductivity properties, such as core-shell structure, three-dimensional network structure, and heteroatom doping, is also elaborated. Feasible solutions for the current problems with these materials are proposed, with the aim of providing valuable guidance for the future design of carbon-based high thermal conduction microwave absorbing materials.
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