材料科学
聚苯胺
微波食品加热
反射损耗
纳米颗粒
散射
阻抗匹配
吸收(声学)
衰减
电介质
涂层
超材料
原位聚合
光电子学
复合材料
电阻抗
纳米技术
聚合
聚合物
光学
复合数
电信
计算机科学
物理
电气工程
工程类
作者
Jun Liu,Yansong Gu,Linlin Gao,Jiaqi Tao,Ruiyang Tan,Lvtong Duan,Zhengjun Yao,Jintang Zhou
标识
DOI:10.1016/j.apsusc.2022.156098
摘要
The hollow multi-shell structure has been used as a basic concept for the design and preparation of microwave absorbing (MA) materials. Herein, we prepared novel hollow [email protected]@PANI (SCP) nanoparticles by a two-step in situ polymerization method, template method and carbon thermal reduction method. By coating different proportions of polyaniline (PANI) on the surface of [email protected] microspheres to regulate the impedance matching and reduce the escape of electromagnetic waves, the suitable dielectric loss and impedance matching reach an optimal balance, the multilayer heterogeneous interface significantly improves the polarization relaxation behavior, and the hollow structure enhances the multiple reflections and scattering of electromagnetic waves. Finally, the effective absorption bandwidth (EAB) of SCP-1:1.5 reached 5.61 GHz at only 1.88 mm. Moreover, we designed and optimized the macroscopic structure of the MA metamaterial through gradient modulation, and successfully broadened the EAB to 10 GHz by introducing multiple interferences, which completely covers the X, Ku bands. Simultaneous optimization strategies for microscopic design and macroscopic regulation of hollow multi-shell absorbers provide ideas for breaking the performance boundaries of MA materials.
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