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不同结构柔性电磁超材料吸波体的最新研究进展

Recent advances in wave absorbers based on flexible electromagnetic metamaterials with different structures
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摘要 传统的电磁超材料通常具有刚性结构,其应用受到一定限制,无法满足当前市场需求,因此质轻、吸收强、吸收频带宽的柔性电磁超材料吸波体的开发利用成为重要的发展方向。文章从柔性电磁超材料吸波体结构出发,概括了基于3层结构的柔性电磁超材料吸波体的最新研究,讨论了基于3层以上结构的柔性电磁超材料吸波体的研究现状,介绍了三维立体结构的柔性电磁超材料吸波体的研究进展,并展望了柔性电磁超材料吸波体未来的发展方向。柔性电磁超材料吸波体在电磁波防护方面具有巨大的潜力,未来将在各个领域得到广泛应用。 With the advancement of science and technology,electromagnetic protective materials are no longer confined to traditional flexible electromagnetic shielding materials.The emergence of electromagnetic metamaterial functional devices has enabled effective manipulation of electromagnetic waves.In the fabrication of metamaterial absorbers,a majority of them are constructed as three-layer structures on rigid substrates.Flexible metamaterials not only enable the conformal wrapping of objects but also contribute to the electromagnetic properties of materials.Traditional metamaterial structures consist of three layers,namely,a metal-dielectric-metal structure.The top layer is used for providing impedance matching,the middle layer attenuates electromagnetic waves through absorption,and the bottom layer is employed to block transmitted waves.Researchers have designed and prepared flexible absorbing materials that achieve efficient absorption at specific frequencies and within a wide frequency range,with polyimide(PI)being a commonly used flexible medium.Researchers replaced the metal resonator in the top layer of the absorbing material with a resistive film to optimize impedance matching.Studying flexible electromagnetic metamaterial absorbing materials with different material combinations is crucial for addressing complex electromagnetic wave environments and coping with multi-frequency band communication systems.Subsequently,researchers began to design flexible electromagnetic metamaterial absorbing materials based on structures with more than three layers.The materials mainly achieve absorption at different frequencies by combining the electromagnetic characteristics of multiple layers,thus providing a broader absorption spectrum.Among them,flexible electromagnetic metamaterial absorbing materials based on indium tin oxide(ITO)not only achieve high absorption rates,but also maintain good optical transparency.This type of structure has greater design flexibility and resonance intensity.Therefore,such materials can achieve precise and extensive impedance matching,demonstrating broadband absorption characteristics.Compared to planar structures,flexible electromagnetic metamaterial absorbing materials based on three-dimensional structures have significant potential applications.These materials can absorb electromagnetic waves in multiple frequency bands simultaneously and adapt to surfaces of various shapes and curvatures to meet various engineering and design requirements.In general,the research scope of flexible electromagnetic metamaterial absorbers is extensive,involving diverse fabrication techniques employing multiple structures.The optimization and enhancement of electromagnetic performance are achieved through meticulously layered designs.In-depth exploration and practical experimentation in the aforementioned research directions may potentially offer novel insights and methodologies for the preparation and application of flexible electromagnetic metamaterial absorbers.The future applications of flexible metamaterial absorbers are expected to continually expand across various domains.
作者 焦馨宇 张富勇 刘元军 赵晓明 JIAO Xinyu;ZHANG Fuyong;LIU Yuanjun;ZHAO Xiaoming(School of Textile Science and Engineering,Tiangong University,Tianjin 300387,China;Tianjin Key Laboratory of Advanced Textile Composites,Tiangong University,Tianjin 300387,China;Tianjin Key Laboratory of Advanced Fiber and Energy Storage Technology,Tiangong University,Tianjin 300387,China;Loftex Industries Ltd.,Binzhou 256600,China)
出处 《现代纺织技术》 北大核心 2024年第6期116-128,共13页 Advanced Textile Technology
基金 中国工程院咨询研究项目(2021DFZD1) 天津市科技计划项目创新平台专项(17PTSYJC00150)。
关键词 超材料 吸波材料 柔性材料 电磁防护 metamaterials wave absorbing materials flexible materials electromagnetic protection
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