Magnetic behavior of nanocrystalline powders of Co-doped ZnO diluted magnetic semiconductors synthesized by polymerizable precursor method |
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Authors: | Santi Maensiri Jakkapon SreesongmuangChunpen Thomas Jutharatana Klinkaewnarong |
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Affiliation: | Department of Physics, Faculty of Science, Khon Kaen University, Khon Kaen 40002, Thailand |
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Abstract: | This paper reports the first synthesis of nanocrystalline powders of Co-doped ZnO (i.e. Zn0.9Co0.1O) diluted magnetic semiconductor by a polymerizable precursor method using nitrate salts of Zn and Co and a mixed solution of citric acid and ethylene glycol as a chelating agent and reaction medium, respectively. The polymeric precursors were characterized by TG-DTA to determine the thermal decomposition and crystallization temperature which was found to be at 723 K. The precursors were calcined at different temperatures of 773, 873, 973, and 1073 K for 1 h to obtain nanocrystalline powders. The morphology and crystalline size of the calcined particles were evaluated by SEM, TEM and Scherrer's equation. The average particle sizes calcined at 773, 873, 973, and 1073 K for 1 h were, respectively, 20, 60, 80, 150 nm, obtained from TEM. The XRD and Fourier transmission infrared (FT-IR) results indicated that the synthesized Zn0.9Co0.1O powders have the pure wurtzite structure without any significant change in the structure affected by Co substitution. Optical absorption measurements showed absorption bands indicating the presence of Co2+ in substitution of Zn2+. Room temperature magnetization results revealed a ferromagnetic behavior for the Zn0.9Co0.1O powders. Although the specific magnetization seemed to change with the particle size but there was no clear dependency since the largest magnetization was observed in the powders calcined at 873 K (60 nm). Instead, the specific magnetization appeared to show a trend of dependency on the lattice constant c of the wurtzite unit cell. |
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Keywords: | Diluted magnetic semiconductor Nanocrystalline Optical properties Magnetic properties Electron microscopy |
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