Rath, Chandana ; Singh, Sonal ; Mallick, P. ; Pandey, D. ; Lalla, N.P. ; Mishra, N. C. (2009) Effect of cobalt substitution on microstructure and magnetic properties in ZnO nanoparticles Indian Journal of Physics, 83 (4). pp. 415-421. ISSN 0019-5480
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Official URL: http://arxiv.iacs.res.in:8080/jspui/bitstream/1082...
Abstract
Ferromagentic semiconductors have been actively pursued because of their potential as spin polarized carrier sources and easy integration into semiconductor technology. One such material, ZnO has been shown to be a potential Diluted Magnetic Semiconductor (DMS). The appearance of ferromagnetism, however, is found to be sensitive to the processing conditions. We report synthesis of ZnO nanoparticles of size ~20 nm by a simple co-precipitation technique using metal nitrates and NaOH as precipitant. The particles are selforganised and reveal single crystalline behaviour in electron diffraction pattern. Incorporation of Co in ZnO matrix leads not only to the reduction in crystallite size but also to the modification of the structure. At 5% Co, the particles are highly textured. The particles also aggregate and the aggregated mass have nearly rectangular shape as seen through TEM. Increasing Co to 10%, results into further reduction of particle size and the particles self organize in a line, which looks like nanofibers. This alignment of particles increases by increasing the Co content further. This type of growth of nanofibers above Co ≥ 10% is well correlated with the anisotropic peak broadening observed in the XRD spectra. In addition, Co substitute Zn site up to 20% without showing any extra phase in XRD spectra as compared to 7 to 10% in case of bulk. Transport and magnetic studies indicate that conductivity increases with increasing Co content, but carrier mediated ferromagnetism is absent down to 10 K.
Item Type: | Article |
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Source: | Copyright of this article belongs to Indian Association for the Cultivation of Science. |
Keywords: | Dilute Magnetic Semiconductor; Nanoparticles; Susceptibility; ZnO |
ID Code: | 88721 |
Deposited On: | 29 Mar 2012 15:15 |
Last Modified: | 29 Mar 2012 15:15 |
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