Tunable microwave absorptivity in reduced graphene oxide functionalized with Fe3O4 nanorods

•RGO/Fe3O4 structure brought a new way to adjust the effective absorbing band.•Both excellent absorption and adjustability were found.•The approach to adjusting absorption in graphene-based materials was summarized. Adjustable and high-performance microwave absorbing materials of three-dimensional (...

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Bibliographic Details
Published in:Applied surface science 2019-04, Vol.473, p.706-714
Main Authors: Zhang, Qiancheng, Du, Zuojuan, Huang, Xiaozhong, Zhao, Zixiang, Guo, Tong, Zeng, Guanjie, Yu, Yantao
Format: Article
Language:English
Subjects:
Adjustable absorptivity
Fe3O4 nanorods
Magnetic materials
Reduced graphene oxide
Tunable complex permittivity
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Summary:•RGO/Fe3O4 structure brought a new way to adjust the effective absorbing band.•Both excellent absorption and adjustability were found.•The approach to adjusting absorption in graphene-based materials was summarized. Adjustable and high-performance microwave absorbing materials of three-dimensional (3D) reduced graphene oxide (RGO)@Fe3O4 structure were realized with different compositions. 100 × 50 nm Fe3O4 nanorods were anchored on both sides of RGO sheets uniformly which stop RGO sheets from re-stacking. Effective absorption bands shifted to higher frequencies and thinner thicknesses in 2–18 GHz due to the precisely controlled complex permittivity caused by the decreased content of RGO. The maximum reflection loss of RGO@Fe3O4 composites was up to −56.25 dB at 12.62 GHz with a small thickness of 2.0 mm, and the absorption bandwidth below −10 dB was 5.40 GHz with only 20 wt% filler loading in the paraffin matrix. The dielectric loss was a primary factor in the superior absorption performance resulting from dipolar polarization, interfacial polarization and associated relaxation phenomena. Hence, the appropriate composition of the RGO@Fe3O4 structure can consider both the microwave absorptivity and the absorption adjustability. This method can be apply to other graphene-based magnetic microwave absorption materials.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2018.12.130