1. Facile design of mesoporous spherical cerium oxide@reduced graphene oxide nanocomposites with excellent microwave absorption.
- Author
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Liu, Zhihao, Wang, Jing, Ren, Qianqian, Ma, Weihang, Li, Wei, Liu, Bonan, Han, Qian, Zan, Runyu, Zhu, Hongyang, Zhang, Han, Zhang, Zhiyong, Zhao, Wu, and Wang, Yingnan
- Abstract
Mesoporous spherical cerium oxide@reduced graphene oxide (CeO
2 @RGO) and mesoporous spherical cerium oxide@multi-walled carbon nanotube (CeO2 @MWCNT) nanocomposites were synthesized through facile hydrothermal and annealing processes, respectively. The CeO2 @RGO nanocomposites (60 mg, 30 wt%), with a thickness of merely 1.39 mm, show an effective absorption bandwidth (EAB) of 6.46 GHz and a minimum reflection loss (RLmin ) of −55.03 dB at 13.03 GHz (1.39 mm). Furthermore, the CeO2 @MWCNT (100 mg, 30 wt%) nanocomposites show an EAB of 6.51 GHz at 1.77 mm and a RLmin surpassing −35.00 dB at 4.66 mm. The as-prepared nanocomposites were significantly better than those of previous reports. CeO2 @RGO and CeO2 @MWCNTs effectively enhance the electromagnetic parameters to improve the impedance match. Meanwhile, the three-dimensional conductive structure formed by the mesoporous spherical CeO2 @RGO and CeO2 @MWCNTs provided many reflection paths and improved the interfacial polarization and conduction loss. Furthermore, a high oxygen vacancy concentration of CeO2 in nanocomposites can promote charge polarization relaxation and lead to conductive loss. [ABSTRACT FROM AUTHOR]- Published
- 2024
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