材料科学
微观结构
反射损耗
微波食品加热
退火(玻璃)
复合材料
空隙(复合材料)
介孔材料
复合数
多孔性
宽带
化学工程
光学
化学
有机化学
计算机科学
电信
物理
工程类
催化作用
作者
Lizheng Meng,Jiahao Wang,Ji Qi,Xiangling Liu,Ling Li,Jiangni Yun,Gang Wang,Junfeng Yan,Jintao Bai
标识
DOI:10.1016/j.jcis.2024.01.052
摘要
The rational and effective combination of multicomponent materials and the design of subtle microstructure for efficient microwave absorption are still challenging. In this study, carbon-coated CoFe with heterogeneous interfaces was space-restricted in the void space of hollow mesoporous carbon spheres through a facile approach involving electrostatic adsorption and annealing, and a high-performance microwave absorber (MAs) (denoted as Co0.7Fe0.3@C@void@C) was successfully prepared. The heterostructure, three-dimensional lightweight porous morphology, and electromagnetic synergy strategy enabled the Co0.7Fe0.3@C@void@C material with yolk-shell structure to exhibit surprising microwave absorption properties. When the annealing temperature and filler loading were 550 o C and 15 wt.%, respectively, the composites exhibited an effective absorption bandwidth (EAB) of 7.16 GHz at 2.48 mm and a minimum reflection loss of -24.1 dB at 2.11 mm. A maximum EAB of 7.21 GHz at 2.37 mm could be achieved for the composite prepared with an annealing temperature of 650 o C. In addition, radar cross-section experiments demonstrated, the potential practical applicability of Co0.7Fe0.3@C@void@C. This work expands a new avenue to develop high-performance and lightweight MAs with ingenious microstructure.
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