材料科学
复合材料
电介质
电磁辐射
光电子学
光学
物理
作者
Qian Ma,Rong Qiang,Yulong Shao,Xiao Yang,Yi Chen,Rui Xue,Fangjie Ren,Yuancheng Ding,Rong Lei,Jingbo Fang,Miao Qing,Zheng Guo
标识
DOI:10.1016/j.jmrt.2024.05.123
摘要
Nowadays, the issue of electromagnetic pollution has become increasingly prominent, underscoring the critical importance of developing high-performance microwave absorbers. This study put forwards the synthesis process of two-dimensional (2D) FeCo/Co 8 FeS 8 /C carbon nanosheets, wherein CoSO 4 and FeCl 3 serve as inorganic salt templates, and dopamine functions as the carbon source. FeCo alloy nanoparticles and Co 8 FeS 8 nanoparticles are loaded on the surface of the carbon layer. 2D structure forms the conductive network, which proves advantages in establishing efficient electronic channels and minimizing conduction losses. The carbon component increases the dielectric constant of the composite and improves its impedance matching, and the FeCo alloy provides a certain ML. The synergistic effect between these components significantly contributes to the exceptional microwave absorption performance of the composites. Accordingly, the minimum reflection loss ( R L min) of FeCo/Co 8 FeS 8 /C composite reaches −47.4 dB, its effective absorption bandwidth (EAB) reaches 5.3 GHz. In particular, CST confirms that radar cross-section reduction value of FeCo/Co 8 FeS 8 /C composite can reach 20.2 dB m 2 in the range of −90° < phi< 90°, indicating a high microwave attenuation ability. The study introduces a novel strategy for advancing the development of two-dimensional carbon-based absorption materials.
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