Journal
JOURNAL OF ALLOYS AND COMPOUNDS
Volume 923, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2022.166416
Keywords
3D core-shell heterostructure; Magnetic-dielectric composite; Microwave absorption; Lightweight absorbent
Categories
Funding
- National Natural Science Foundation of China
- Fundamental Research Funds for HUST
- [J1103514]
- [2014NY007]
- [2017KFYXJJ212]
- [2017KFXKJC010]
- [2017KFTSZZ001]
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In this study, a 3D flower-like core-shell composite with heterostructure was fabricated, demonstrating superior microwave absorbing properties. The optimized composite material exhibited a large absorption frequency bandwidth of 6.00 GHz. The good absorption performance was attributed to the heterostructures and impedance matching, which introduced more magnetic-dielectric cooperative effects, interface polarization, and extension of electromagnetic wave transmission path.
In this study, a 3D flower-like ferroferric oxide @ polypyrrole (Fe3O4@PPy) composite with core-shell heterostructure was successfully fabricated via solvothermal treatment and polymerization. The optimized Fe3O4@PPy composites exhibited superior microwave absorbing properties via reasonable structural design and conductive loss regulation by varying PPy proportion. With a thickness of 2.08 mm, the fabricated Fe3O4@PPy composite material exhibited a maximum absorption frequency bandwidth of 6.00 GHz (12.00-18.0 0 GHz). The good absorption performance of the 3D flower-like core-shell Fe3O4@PPy was at-tributed to the heterostructures and impedance matching between Fe3O4 and PPy, which introduced more magnetic-dielectric cooperative effects, the interface polarization, tailored conduction, and the extension of electromagnetic (EM) wave transmission path. Therefore, constructing a 3D core-shell flower-like hetero-structure is a promising strategy for improving electromagnetic wave absorption (EMWA) performance. (c) 2022 Elsevier B.V. All rights reserved.
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