期刊
JOURNAL OF MATERIALS CHEMISTRY A
卷 3, 期 10, 页码 5535-5546出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c4ta05718j
关键词
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资金
- National Natural Science Foundation of China [J1210055, J1310016, 11274145, 21371140, 21376192]
- Natural Science Foundation of Shannxi Province, China [2014JQ1040]
- Foundation of Educational department of Shaanxi Province, China [14JK1727]
- Science Foundation of Northwest University [13NW13]
- Basic Scientific Research Business Expenses of the Central University
- Key Laboratory for Magnetism and Magnetic Materials of the Ministry of Education from Lanzhou University
- Institute of Photonics and Photo-Technology of Northwest University (China)
CoFe2O4/graphene oxide hybrids have been successfully fabricated via a facile one-pot polyol route, followed by chemical conversion into FeCo/graphene hybrids under H-2/NH3 atmosphere. These magnetic nanocrystals were uniformly decorated on the entire graphene nanosheets without aggregation. The morphology, chemical composition and crystal structure have been characterized in detail. In particular, FeCo/graphene hybrids show significant improvement in both permeability and permittivity due to the combination of the high magnetocrystalline anisotropy of metallic FeCo and high conductivity of light-weight graphene. This leads to remarkable enhancement in microwave absorption properties. The maximum reflection loss of FeCo/graphene hybrids reaches -40.2 dB at 8.9 GHz with a matching thickness of only 2.5 mm, and the absorption bandwidth with reflection loss exceeding -10 dB is in the 3.4-18 GHz range for the absorber thickness of only 1.5-5 mm. Moreover, the experimental relationship between matching thickness and frequency is found to obey the quarter-wavelength matching model, facilitating the design of FeCo/graphene hybrid film for practical application. The results suggest that the FeCo/graphene hybrids developed here can serve as an ideal candidate for the manufacture of light-weight and high-efficiency microwave-absorbing devices.
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