材料科学
聚二甲基硅氧烷
制作
复合材料
气凝胶
碳纳米管
多孔性
电介质
吸收(声学)
反射损耗
热的
光电子学
介电损耗
功勋
微波食品加热
聚合物
电磁辐射
纳米技术
纳米-
保温
衰减系数
反射系数
纳米颗粒
电磁屏蔽
热膨胀
极高频率
作者
Chengjuan Wang,Hui Ji,Mingan Zhang,Yijing Zhao,Jiaqi Tao,Yijie Liu,Chin Keong Ang,Wei Zhai,Boo Cheong Khoo,Yong Yang
标识
DOI:10.1002/adfm.202531473
摘要
ABSTRACT Polydimethylsiloxane (PDMS) exhibits multiphysical responsiveness, enabling versatile forms from coatings to foams that emphasize robustness and functionality. However, the development of ultralight PDMS‐based aerogels remains unexplored, particularly for systems demanding concurrent electromagnetic and acoustic wave absorption while withstanding challenges from harsh environment. Herein, we report a green and low‐cost dual‐template method, exploiting the complementary packing behaviors of fine salt and large sugar for the scalable and shape‐customizable fabrication of PDMS‐based aerogels. They exhibit ultralight weights ranging from 37.3 to 66.5 mg cm −3 , which breaks the density limit of traditional PDMS foams (≈100 mg cm −3 ). Based on the dielectric optimization of single‐walled carbon nanotubes (SWCNTs)/aramid fibers (AFs), as well as a highly adjustable multiscale porosity spanning from the nano to millimeter range, efficient absorption of electromagnetic energy (436.72 dB cm 3 g −1 of specific reflection loss and 84.21 GHz cm 3 g −1 of specific effective absorption bandwidth) and acoustic energy (noise reduction coefficient > 0.24) is achieved. Furthermore, the aerogels demonstrate exceptional capability in thermal insulation, flame retardancy, elastic recovery, hydrophobicity and corrosion resistance. This multifunctionality, combined with their ultralow density, positions SWCNTs/AFs/PDMS aerogels as promising candidates for lightweight and multifunctional protective layers or structural encapsulation components in aerospace and flexible electronic systems.
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