Heterointerface‐Engineered SiC@SiO  2  @C Nanofibers for Simultaneous Microwave Absorption and Corrosion Resistance

Song, Limeng; Hu, Feiyue; Chen, Yongqiang; Guan, Li; Zhang, Peigen; Wang, Linan; Sun, ZhengMing; Zhu, Yanqiu; Wang, Hailong; Che, Renchao; Fan, Bingbing; Zhang, Rui

doi:10.1002/advs.202509071

articleAdvanced ScienceJul 31, 2025GOLD OA

Heterointerface‐Engineered SiC@SiO 2 @C Nanofibers for Simultaneous Microwave Absorption and Corrosion Resistance

LSLimeng Song FHFeiyue Hu YCYongqiang Chen LGLi Guan PZPeigen Zhang

Zhengzhou University of Aeronautics · Zhengzhou University · +4 more institutions

PubMed

Indexed incrossrefdoajpubmed

Abstract

Abstract To meet the demands of maritime defense and transportation, next‐generation microwave absorption (MA) materials must combine efficient attenuation and corrosion resistance (CR). SiC nanofibers, with their moderate dielectric constant and chemical inertness, are ideal multifunctional coating fillers. However, their single‐component nature limits microwave attenuation, resulting in low efficiency and narrow bandwidth. Incorporating corrosion‐resistant components and employing heterointerface engineering offers a promising strategy to enhance polarization loss and synergistically improve CR. In this study, SiC nanofibers synthesized via chemical vapor deposition are used as precursors; SiO 2 interlayers…

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44

total citations

FWCI: 14.87
Percentile: 100%
References: 54

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Authors

12

Topics & keywords

Topics

Keywords

Materials science
Corrosion
Polyvinylidene fluoride
Chemical vapor deposition
Dielectric
Microwave
Nanofiber
Composite material

UN Sustainable Development Goals

Life below water

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