Litcius/Paper detail

Metasurface-based multifunctional composites with ultra-robust broadband microwave absorption up to 1000 °C

Xinyuan Lv, Qiujin Gu, Shengchi Zhu, Xun Sun, Minglong Yang, Tao Liu, Yunpeng Ma, Zhenxin Cao, Haitao Liu

2025Nature Communications9 citationsDOIOpen Access PDF

Abstract

Abstract The metamaterials offer methodology and infinite possibilities for ultra-broadband microwave absorption (MA). However, maintaining stable broadband MA under extreme high-temperature environments remains one of the most cutting-edge challenges. Herein, we report a RuO 2 /glass resistive material for the fabrication of microwave-absorbing metasurfaces. Based on tunneling effect, an ultra-low temperature coefficient of resistance was achieved in RuO 2 /glass, resulting in temperature-insensitivity of its electrical properties, thereby ensuring stability of MA properties of metasurfaces against temperature. Furthermore, using low-dielectric alumina aerogel composites and Al 2 O 3f /Al 2 O 3 ceramic composites as dielectric spacer layer, we propose the multifunctional composites integrated with MA, thermal insulation and load-bearing (MTL). The MTL integrated composites show an impressive broadband (2~12 GHz) MA performance that is ultra-robust against temperature variations (25~1000 °C), thermal shock (50 cycles at 25~1000 °C), incidence angle (±45°) and polarization. Additionally, the integrated composites also demonstrate a long-term thermal insulation ability and a high compressive modulus (6.58 MPa). This advancement provides insights for developing MA materials that can work in extreme multi-field environments.

Topics & Concepts

Materials scienceComposite materialMicrowaveResistive touchscreenDielectricCeramicFabricationThermal insulationThermal stabilityTemperature coefficientDielectric lossThermal expansionSpecific modulusBroadbandAerogelThermal shockThermal conductivityAbsorption (acoustics)ModulusMetamaterialThermalPermittivityPiezoelectricityCompressive strengthThermal resistanceCompression (physics)Material propertiesWork (physics)Quantum tunnellingComposite numberProjectileDiscontinuity (linguistics)Electrical resistance and conductanceElastic modulusDissipation factorElectromagnetic wave absorption materialsMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface Technologies