Journal
JOURNAL OF PHYSICAL CHEMISTRY C
Volume 115, Issue 28, Pages 13603-13608Publisher
AMER CHEMICAL SOC
DOI: 10.1021/jp202473y
Keywords
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Funding
- National Natural Science Foundation of China [51072038, 21001035]
- NECT
- Outstanding Youth Foundation of Heilongjiang Province [JC201008]
- Natural Science Foundation of Heilongjiang Province, China [F200828, E200839]
- Ministry of Science and Technology of China [2008DFR20420]
- Fundamental Research Funds for the Central Universities [HEUCFT1010, HEUCF20111127, HEUCF20111124, HEUCF101016]
- Harbin Key Sci-tech Project [2010AA4BG004]
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The porous Fe3O4/carbon core/shell nanorods were fabricated via a three-step process. alpha-Fe2O3 nanorods were first obtained, and alpha-Fe2O3/carbon core/shell nanorods were subsequently fabricated using glucose as a carbon source by a hydrothermal method, in which the thickness of the carbon coating was about 3.5 nm. Fe3O4/carbon core/shell nanorods were synthesized after an annealing treatment of the product above under a mixture of Ar/H-2 flow. After the H-2 deoxidation process, the Fe3O4 core exhibited a character of porosity; the thickness of the carbon shell was decreased to about 2.5 nm, and its degree of graphitization was enhanced. The interesting core/shell nanostructures are ferromagnetic at room temperature, and the Verwey temperature was about 120 K. Electromagnetic properties of the core/shell nanorod-wax composite were investigated in detail. The maximum reflection loss was about -27.9 dB at 14.96 GHz for the composite with a thickness of 2.0 mm, and the absorption bandwidth with the reflection loss below -18 dB was up to 10.5 GHz for the absorber with the thickness of 2-5 mm. The excellent electromagnetic wave absorption properties of the porous Fe3O4/carbon core/shell nanorods were attributed to effective complementarities between the dielectric loss and the magnetic loss.
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