Room-temperature ferromagnetism of diamagnetically-doped ZnO aligned nanorods fabricated by vapor reaction

Room-temperature ferromagnetism of diamagnetically-doped ZnO aligned nanorods fabricated by vapor reaction

Large-scale monocrystalline oxide-diluted magnetic semiconductor (ODMS) Zn 1− x Bi x O nanorods arrays (NAs) were prepared within a large doping concentration range from 5% to 20% by a simple chemical vapor deposition. X-ray diffraction and high-resolution transmission electron microscopy reveal the...

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Veröffentlicht in:Applied physics. A, Materials science & processing Materials science & processing, 2011-02, Vol.102 (2), p.367-371
Hauptverfasser: Zhou, ShaoMin, Liu, LiSheng, Lou, ShiYun, Wang, YongQiang, Chen, XiLiang, Yuan, HongLei, Hao, YaoMing, Yuan, RuiJian, Li, Ning
Format: Artikel
Sprache:eng
Schlagworte:
Arrays
Characterization and Evaluation of Materials
Condensed Matter Physics
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Devices
Doping
Exact sciences and technology
Ferromagnetism
Machines
Magnetic properties and materials
Magnetic semiconductors
Manufacturing
Materials science
Nanorods
Nanostructure
Nanotechnology
Optical and Electronic Materials
Physics
Physics and Astronomy
Processes
Studies of specific magnetic materials
Surfaces and Interfaces
Thin Films
Zinc oxide
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Zusammenfassung:Large-scale monocrystalline oxide-diluted magnetic semiconductor (ODMS) Zn 1− x Bi x O nanorods arrays (NAs) were prepared within a large doping concentration range from 5% to 20% by a simple chemical vapor deposition. X-ray diffraction and high-resolution transmission electron microscopy reveal the monotonous expansion of the lattice constants with increasing Bi content, due to the effective Bi doping. In particular, room-temperature ferromagnetic (RTFM) behavior with Curie temperature over 363.7 K has been observed based on Bi-doped ZnO nanoarrays, whereas undoped ZnO NAs disappear. The RTFM origin is suggested, in which vacancies can be controlled to tune the FM. The as-formed RTFM NAs would have potential applications in many areas of advanced nanotechnology, such as new spintronic devices and magneto-optic components.
ISSN:0947-8396
1432-0630
DOI:10.1007/s00339-010-6011-7