材料科学
气凝胶
微波食品加热
电磁辐射
吸收(声学)
反射损耗
复合数
石墨烯
阻抗匹配
聚酰亚胺
复合材料
光电子学
不透明度
宽带
带宽(计算)
多孔性
超材料
氧化物
光学
电介质
电阻抗
纳米颗粒
作者
Jiangpeng Li,Wei Fan,Yao Chai,Minghui Qiu,Qi Chen,Wenting Kong,Kunlong Yun,Ruiwen Shu,Hao Jia
标识
DOI:10.1016/j.apmt.2026.103157
摘要
Aerogel, with its three-dimensional lightweight and porous structure, is a promising candidate for wave absorption applications. Despite this promise, a formidable challenge remains in developing electromagnetic wave absorption materials that can dynamically adapt to real-time environmental fluctuations. In this research, we have developed an ultra-elastic polyimide nanofiber (PINF) aerogel reinforced with reduced graphene oxide (rGO), creating a robust, continuous, and isotropic fiber network. Our findings reveal that by adjusting the compression shape parameters, the composite material exhibits tunable impedance matching properties, enabling selective wave absorption. Remarkably, the wave absorption intensity of this composite aerogel can be dynamically modulated to exceed −59.7 dB under various compression states, demonstrating dynamically tunable microwave absorption properties. This breakthrough showcases the material’s adjustable intelligent functionality and its potential to serve as a switchable electromagnetic wave absorption solution, offering a novel approach to the development of smart materials with responsive electromagnetic properties.
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