材料科学
超材料
宽带
微波食品加热
横截面
光电子学
导电体
超材料吸收剂
电介质
电磁辐射
气凝胶
航空航天
吸收(声学)
极化(电化学)
衰减
带宽(计算)
光学
雷达截面
多孔性
多孔介质
电磁兼容性
雷达
介电常数
介电损耗
微带线
阻抗匹配
作者
Jingpeng Lin,Lichen Wang,Weiqin Chu,Huijuan Yu,Zhanpeng Chen,Mingji Chen,Weili Song,Xuan Gu,Jing Liu,Wu Na,Zhihui Zeng
标识
DOI:10.1002/adfm.202527401
摘要
ABSTRACT The increasing demand for lightweight electromagnetic wave (EMW) absorbing monoliths, particularly those capable of absorbing both low‐frequency and broadband EMWs, presents a significant challenge. While dielectric nanostructured aerogels have demonstrated high potential and advancements, a gap remains in the development of aerogel‐based EMW absorbers to achieve effective low‐frequency and broadband absorption. Here, we present a multiscale engineering strategy for fabricating aerogel‐metamaterial hybrids, addressing key challenges such as broad bandwidth, low‐frequency absorption, and high load‐bearing capacity. The proposed absorber consists of a simulation‐assisted additive‐manufactured thin‐walled enclosure embedded with graphene/nanocellulose aerogels, which feature an effective conductive network and abundant heterogeneous interfaces. This multiscale design enables exceptional EMW absorption across the entire 2–18 GHz band, achieving 100% bandwidth coverage, with stable performance under wide oblique incidence (up to 60°) and polarization (both transverse electric and transverse magnetic). Furthermore, the absorber exhibits a low areal density of 2.714 kg m −2 and can withstand at least 95 kg of out‐of‐plane load. These advancements highlight the potential for developing lightweight, novel EMW‐absorbing aerogel metamaterials for low‐frequency, ultrabroadband electromagnetic compatibility and aerospace applications.
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