Litcius/Paper detail

Carbon Nanocoils‐Assisted Formation of Tunable Pore Graphene Aerogels for Lightweight Broadband Microwave Absorption, Thermal Insulation, and Antifreeze Devices

Yuan Guo, Yuping Duan, Shude Gu, Xiaoji Liu, Zeng Fan, Huifang Pang, Lujun Pan

2025Small36 citationsDOIOpen Access PDF

Abstract

The rational design of the aerogel pore structure facilitates the maximum excitation of the materials physicochemical properties, which enables the modulation of their electromagnetic performance. However, the controllable adjustment of the aerogel pore structure remains a significant challenge. Here, the freeze-thawing process and thermal annealing treatment are introduced to prepare reduced graphene oxide (rGO)/iron (Fe)/carbon nanocoil (CNC) aerogels. The composite aerogels with tunable pore structure are obtained by adjusting the content of CNC. Both experiments and simulations confirm that the pore structure with the addition of CNC presents a continuous 3D conductive network, which improves the conductivity loss and polarization loss. Meanwhile, the amorphous carbon structure within the CNC causes structural defects, which further enhance the polarization loss. Therefore, the rGO/Fe/CNC aerogel with optimized pore structure has lightweight and efficient electromagnetic wave absorption. At an ultra-low filling ratio of 0.8 wt%, the effective absorption bandwidth reaches 7.9 GHz and the optimal reflection loss is -43.5 dB. In addition, due to the 3D continuous network interwoven of aerogels and the temperature stability of carbon nanomaterials, composite aerogels have excellent thermal insulation, antifreeze performance, and hydrophobicity. This multifunctional absorber has great potential for application in complex and changing electromagnetic environments.

Topics & Concepts

Materials scienceAerogelReflection lossGrapheneComposite numberMicrowaveThermal insulationComposite materialThermal conductivityElectromagnetic shieldingOxideNanotechnologyChemical engineeringPhysicsEngineeringMetallurgyQuantum mechanicsLayer (electronics)Electromagnetic wave absorption materialsAdvanced Antenna and Metasurface TechnologiesSupercapacitor Materials and Fabrication