Preparation and properties of magnetic iron oxide nanotubes 被引量：5

Preparation and properties of magnetic iron oxide nanotubes

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摘要 Magnetite （Fe3O4） nanotubes were prepared by reducing synthesized hematite （α-Fe2O3） nanotubes in 5%H2＋95% Ar atmosphere, and then maghemite （γ-Fe2O3） nanotubes were obtained by re-oxidizing the Fe3O4 nanotubes. The nanotube structure was kept from collapsing or sintering throughout the high temperature reducing and re-oxidizing processes. The coercivities of the Fe304 and γ-Fe2O3 nanotubes synthesized were found to be 340.22 Oe and 342.23 Oe, respectively, both higher than other nanostructures with the same phase and of similar size. Both adsorbed phosphate and the nanotube structure are considered responsible for this high coercivity. Magnetite （Fe3O4） nanotubes were prepared by reducing synthesized hematite （α-Fe2O3） nanotubes in 5%H2＋95% Ar atmosphere, and then maghemite （γ-Fe2O3） nanotubes were obtained by re-oxidizing the Fe3O4 nanotubes. The nanotube structure was kept from collapsing or sintering throughout the high temperature reducing and re-oxidizing processes. The coercivities of the Fe304 and γ-Fe2O3 nanotubes synthesized were found to be 340.22 Oe and 342.23 Oe, respectively, both higher than other nanostructures with the same phase and of similar size. Both adsorbed phosphate and the nanotube structure are considered responsible for this high coercivity.

作者 Baoliang Lv Yao Xu Dong Wu Yuhan Sun

机构地区 State Key Laboratory of Coal Conversion Graduate University of the Chinese Academy of Sciences

出处《Particuology》 SCIE EI CAS CSCD 2008年第5期334-339,共6页 颗粒学报（英文版）

关键词 NANOSTRUCTURES Iron oxides NANOTUBES Magnetic properties Nanostructures Iron oxides Nanotubes Magnetic properties

分类号 O369 [理学—流体力学]

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参考文献31

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Preparation and properties of magnetic iron oxide nanotubes 被引量：5

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