微波食品加热
宽带
材料科学
兴奋剂
光电子学
吸收(声学)
激光器
带宽(计算)
三元运算
异质结
波长
调制(音乐)
多光谱图像
吸收光谱法
光子学
可扩展性
制作
电介质
微波应用
光通信
辐射传输
纳米晶
超材料
光学
作者
Yongke Wang,Yahui Wang,Yi Liu,Zongsheng Chen,Zhigang Li,Xiangyin Lv,Chenglong Ding,Junru Wang,Jiaming Shi
出处
期刊:Nano Research
[Springer Science+Business Media]
日期:2025-10-17
卷期号:19 (2): 94908169-94908169
标识
DOI:10.26599/nr.2025.94908169
摘要
The rapid evolution of multispectral detection systems requests stealth materials capable of simultaneously delivering strong microwave absorption and suppressed near-infrared laser reflection. This study proposes a novel rare earth (RE) doping strategy to construct a heterostructures ternary Fe₃O₄@C/REOCl (RE = Sm, Er, Dy, and Ho) through in-situ assembly-thermal reduction process. The optimized Fe₃O₄@C/REOCl demonstrates exceptional multi-spectral modulation capabilities due to the synergistic effects of multi-component dielectric loss, magnetic loss, and RE spectral modulation. The Sm³⁺-modified system (FCS) achieved effective absorption bandwidth of 5.41 GHz at 1.5 mm, and the Ho³⁺-modified system (FCH) exhibited ultralow laser reflectivity of 1.86% and 1.98% at the wavelength of 1.06 and 1.55 μm. This study introduces a unified framework that facilitates broadband microwave absorption (>5 GHz) and dual-band laser suppression (< 2%). It establishes a universal model that can be adapted to various RE components and scalable fabrication pathways for multi-spectral stealth materials.
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