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Achieving Ultra-Wideband and Elevated Temperature Electromagnetic Wave Absorption via Constructing Lightweight Porous Rigid Structure

Zibao Jiao, Wenjun Huyan, Feng Yang, Junru Yao, Ruiyang Tan, Ping Chen, Xuewei Tao, Zhengjun Yao, Jintang Zhou, Yijie Liu

2022Nano-Micro Letters187 citationsDOIOpen Access PDF

Abstract

Abstract Realizing ultra-wideband absorption, desirable attenuation capability at high temperature and mechanical requirements for real-life applications remains a great challenge for microwave absorbing materials. Herein, we have constructed a porous carbon fiber/polymethacrylimide (CP) structure for acquiring promising microwave absorption performance and withstanding both elevated temperature and high strength in a low density. Given the ability of porous structure to induce desirable impedance matching and multiple reflection, the absorption bandwidth of CP composite can reach ultra-wideband absorption of 14 GHz at room temperature and even cover the whole X-band at 473 K. Additionally, the presence of imide ring group in polymethacrylimide and hard bubble wall endows the composite with excellent heat and compressive behaviors. Besides, the lightweight of the CP composite with a density of only 110 mg cm −3 coupled with high compressive strength of 1.05 MPa even at 453 K also satisfies the requirements in engineering applications. Compared with soft and compressible aerogel materials, we envision that the rigid porous foam absorbing material is particularly suitable for environmental extremes.

Topics & Concepts

Materials scienceReflection lossComposite numberMicrowaveCompressive strengthComposite materialPorosityAttenuationAbsorption (acoustics)Impedance matchingWidebandBandwidth (computing)OptoelectronicsOpticsElectrical impedanceElectrical engineeringComputer scienceTelecommunicationsPhysicsEngineeringElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface TechnologiesMetamaterials and Metasurfaces Applications
Achieving Ultra-Wideband and Elevated Temperature Electromagnetic Wave Absorption via Constructing Lightweight Porous Rigid Structure | Litcius