反射损耗
材料科学
纳米颗粒
吸收(声学)
反射(计算机编程)
电磁辐射
碳纳米管
色散(光学)
雷达截面
带宽(计算)
纳米技术
碳纤维
雷达
干扰(通信)
光电子学
还原(数学)
反射率
电磁学
化学工程
光学
电磁干扰
衰减
作者
Yongzheng Chen,Lixue Gai,Bo Hu,Yan Wang,Yanyi Chen,Xijiang Han,Ping Xu,Yunchen Du
出处
期刊:Nano-micro Letters
[Springer Science+Business Media]
日期:2025-09-15
卷期号:18 (1): 71-71
被引量:16
标识
DOI:10.1007/s40820-025-01920-z
摘要
Abstract Directional three-dimensional carbon-based foams are emerging as highly attractive candidates for promising electromagnetic wave absorbing materials (EWAMs) thanks to their unique architecture, but their construction usually involves complex procedures and extremely depends on unidirectional freezing technique. Herein, we propose a groundbreaking approach that leverages the assemblies of salting-out protein induced by ammonium metatungstate (AM) as the precursor, and then acquire directional three-dimensional carbon-based foams through simple pyrolysis. The electrostatic interaction between AM and protein ensures well dispersion of WC 1−x nanoparticles on carbon frameworks. The content of WC 1−x nanoparticles can be rationally regulated by AM dosage, and it also affects the electromagnetic (EM) properties of final carbon-based foams. The optimized foam exhibits exceptional EM absorption performance, achieving a remarkable minimum reflection loss of − 72.0 dB and an effective absorption bandwidth of 6.3 GHz when EM wave propagates parallel to the directional pores. Such performance benefits from the synergistic effects of macroporous architecture and compositional design. Although there is a directional dependence of EM absorption, radar stealth simulation demonstrates that these foams can still promise considerable reduction in radar cross section with the change of incident angle. Moreover, COMSOL simulation further identifies their good performance in preventing EM interference among different electronic components.
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