期刊
MICRO & NANO LETTERS
卷 8, 期 7, 页码 349-352出版社
INST ENGINEERING TECHNOLOGY-IET
DOI: 10.1049/mnl.2013.0009
关键词
eddy currents; electrical conductivity; iron; magnetisation; nanocomposites; nanofabrication; oxidation; particle reinforced composites; silicon compounds; nanomagnetics; Fe-SiO2; size 2 mm; coatings; effective absorption band; reflection loss; sillica; iron particles; eddy current effect; microwave band; morphology; hydrogen-thermal reduction; oxidation resistance; monodispersed yolk-shell nanospheres; electromagnetic properties
资金
- Program for Excellent Team at Harbin Institute of Technology
Nearly monodispersed Fe/SiO2 yolk/shell nanospheres with an average diameter of about 250 nm were synthesised by hydrogen-thermal reduction of Fe3O4/SiO2 precursor nanospheres. The morphology of products and precursors was characterised in three stages of preparation. Electrical conductivity magnetic properties and electromagnetic properties in the microwave band of Fe/SiO2 yolk/shell nanospheres were investigated. The eddy current effect in Fe/SiO2 yolk/shell nanospheres was effectively suppressed because of separation of ultrafine iron particles by silica shells, indicating that the eddy current effect can be suppressed only by separating iron particles and it is not related to the interface of iron and sillica. A reflection loss of -12.5 dB and an effective absorption band with a bandwith of 3.3 GHz were simultaneously obtained for Fe/SiO2 yolk/shell nanospheres-containing coatings with thickness of 2 mm. Compared with bare Fe particles obtained from Fe3O4 precursor nanospheres, oxidation resistance of Fe/SiO2 yolk/shell nanospheres was improved because of the existence of silica shells.
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