Synthesis of large-area, vertically aligned α-Fe2O3 nanowire and nanobelt arrays

Hai Kuo; Tang Dong-Sheng; Yuan Hua-Jun; Peng Yue-Hua; Luo Zhi-Hua; Liu Hong-Xia; Chen Ya-Qi; Yu Fang; Yang Yi

doi:10.7498/aps.58.1120

Abstract
Large-area (10 mm×10mm), vertically aligned α-Fe2O3 one-dimensional nanostructure (nanobelts and nanowires with controllable diameters) arrays are successfully synthesized by thermally oxidizing iron foil directly, which grow in the ［110］ direction of the hexagonal crystal. The morphology and microstructure of the synthesized arrays depend strongly on the growth conditions such as the oxygen pressure, temperature and reaction time. We found that the growth of α-Fe2O3 one-dimensional nanostructures follows a top-growth mechanism, in which the ratio of iron and oxygen atoms near the point of growth plays a key role.

Keywords:
α-Fe2O3 /

one-dimensional nanostructure /

thermal oxidation
Authors and contacts
Hai Kuo,

Tang Dong-Sheng,

Yuan Hua-Jun,

Peng Yue-Hua,

Luo Zhi-Hua,

Liu Hong-Xia,

Chen Ya-Qi,

Yu Fang,

Yang Yi

1.
低维量子结构与调控教育部重点实验室，湖南师范大学物理与信息科学学院，长沙 410081
References

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Vol. 58, Issue 2 - 2009-01-20

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Synthesis of large-area, vertically aligned α-Fe2O3 nanowire and nanobelt arrays

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Synthesis of large-area, vertically aligned α-Fe2O3 nanowire and nanobelt arrays

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