材料科学
微观结构
微波食品加热
碳化硅
复合材料
反射损耗
硅
纳米颗粒
吸收(声学)
碳化物
球体
纳米技术
光电子学
复合数
物理
量子力学
天文
作者
Bo Wei,Jintang Zhou,Zhengjun Yao,Azhar Ali Haidry,Kun Qian,Haiyan Lin,Xinlu Guo,Wenjing Chen
标识
DOI:10.1016/j.apsusc.2020.145261
摘要
Using yeast as a template, hollow silicon carbide spheres (HSS) with complete morphology and uniform dispersion were prepared by sol-gel method followed by a carbon thermal reduction method. Thin films composed of Ni nanoparticles (NPs) were uniformly coated onto the hollow silicon carbide spheres by Pd activated alkaline electroless plating technique. Finally, a novel microwave absorbent Ni NPs coated hollow silicon carbide spheres ([email protected]) was obtained. A variety of modern characterization methods were used to study the crystal structure, microstructure, element composition, electromagnetic performance and microwave absorption performance. It is found that the [email protected] structure possess excellent microwave absorbing properties. For instance, at the frequency band of 2–18 GHz, the maximum reflecting loss of −50.75 dB can be obtained at the absorber layer thickness of 4.2 mm. When the absorbing layer thickness is 3.6 mm, the effective absorption bandwidth of 9.31 GHz can be realized. Last but not the least, the mechanism of improved microwave absorption performance of [email protected] is discussed in detail on the basis of its structure, morphology and electromagnetic characteristics.
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