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Synthesis of SiOC@C ceramic nanospheres with tunable electromagnetic wave absorption performance

Junjie Qian, Dandan Ma, Xiaoling Zhou, Huoming Liao, Qingliang Shan, Shaohua Wang, Yongqing Wang, Xiaojun Zeng

2024Journal of Advanced Ceramics49 citationsDOIOpen Access PDF

Abstract

SiOC-based ceramics are considered promising electromagnetic wave-absorbing materials because of their lightweight, high-temperature resistance, and heat insulation properties. Herein, SiOC@C ceramic nanospheres were prepared using a liquid phase method combined with the polymer-derived ceramics (PDCs) method, followed by heat treatment in N<sub>2</sub> and Ar atmospheres at different temperatures. The morphology, microstructure, phase composition, and electromagnetic wave absorption performance of the SiOC@C ceramic nanospheres were investigated in detail. The SiOC@C ceramic nanospheres obtained in the Ar atmosphere showed an RL<sub>min</sub> of -67.03 dB; whereas the SiOC@C ceramic nanospheres obtained in the N<sub>2</sub> atmosphere exhibited an RL<sub>min</sub> value of -63.76 dB. The outstanding electromagnetic wave absorption performance of the SiOC@C ceramic nanospheres was attributed to the synergistic effect between conductive loss, interfacial/defect polarization loss, multiple reflections and scattering. Therefore, this research provides valuable insights into the design and fabrication of SiOC ceramic-based electromagnetic wave absorbers.

Topics & Concepts

Structural materialMaterials scienceCeramicAbsorption (acoustics)Electromagnetic radiationComposite materialOpticsPhysicsElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface TechnologiesDielectric materials and actuators
Synthesis of SiOC@C ceramic nanospheres with tunable electromagnetic wave absorption performance | Litcius