The dependence of electrical conductivity of MgxZn1–xO ceramics on phase composition
The structural and electrical characteristics of (Mg,Zn)O ceramics produced using the solid state reaction at 1100 °C for 3 hours were studied applying X-ray diffraction and IR reflection spectroscopy as well as means of direct current measurements versus MgO content in initial charge (varied from 0...
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| Published in | Semiconductor physics, quantum electronics, and optoelectronics Vol. 27; no. 1; pp. 70 - 78 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
01.01.2024
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| Online Access | Get full text |
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| Abstract | The structural and electrical characteristics of (Mg,Zn)O ceramics produced using the solid state reaction at 1100 °C for 3 hours were studied applying X-ray diffraction and IR reflection spectroscopy as well as means of direct current measurements versus MgO content in initial charge (varied from 0 to 100 mol.%). It has been shown that electrical conductivity extracted from the IR reflection spectra corresponds to that of hexagonal phase in a solid solution, while plasmon in cubic phase was not observed. The electron concentration in the hexagonal grains of solid solution prepared with MgO content below 30 mol. % in the charge was found to be close to that of ZnO grains. It shows the tendency to decrease with further growth of the MgO content, which was explained by extraction of zinc interstitials, responsible for ZnO conductivity, from ZnO under formation of the MgZnO cubic phase. The direct current measurements have shown the lower conductivity as compared to the value estimated from IR reflection spectra. This fact along with the superlinearity of current-voltage characteristics has been explained by the presence of intergranular barriers, which does not allow obtaining information on the concentration of free electrons in the grain by this method. The possible nature of intergranular barriers as well as the role of grain boundaries in the DC conductivity of samples has been discussed. |
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| AbstractList | The structural and electrical characteristics of (Mg,Zn)O ceramics produced using the solid state reaction at 1100 °C for 3 hours were studied applying X-ray diffraction and IR reflection spectroscopy as well as means of direct current measurements versus MgO content in initial charge (varied from 0 to 100 mol.%). It has been shown that electrical conductivity extracted from the IR reflection spectra corresponds to that of hexagonal phase in a solid solution, while plasmon in cubic phase was not observed. The electron concentration in the hexagonal grains of solid solution prepared with MgO content below 30 mol. % in the charge was found to be close to that of ZnO grains. It shows the tendency to decrease with further growth of the MgO content, which was explained by extraction of zinc interstitials, responsible for ZnO conductivity, from ZnO under formation of the MgZnO cubic phase. The direct current measurements have shown the lower conductivity as compared to the value estimated from IR reflection spectra. This fact along with the superlinearity of current-voltage characteristics has been explained by the presence of intergranular barriers, which does not allow obtaining information on the concentration of free electrons in the grain by this method. The possible nature of intergranular barriers as well as the role of grain boundaries in the DC conductivity of samples has been discussed. |
| Author | Melnichuk, L.Yu Ponomaryov, S.S. Stara, T.R. Kozoriz, K.O. Polishchuk, Yu.O. Melnichuk, O.V. Khomenkova, L.Yu Korsunska, N.O. Markevich, I.V. |
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| Cites_doi | 10.3390/coatings9040277 10.1088/1361-6641/ab9397 10.1016/j.physb.2014.05.012 10.1016/j.jcrysgro.2006.03.036 10.1002/pssb.2221880226 10.1063/1.4917207 10.1063/1.4926980 10.1016/j.cap.2012.02.042 10.1063/1.2200447 10.1109/JPROC.2010.2044550 10.1016/j.solmat.2008.09.039 10.1016/j.tsf.2011.12.020 10.1063/1.121384 10.1063/1.2424308 10.1007/s00339-016-0721-4 10.1007/s10854-020-03110-6 10.1002/adfm.201303204 10.1016/j.jssc.2007.01.014 10.1002/pssc.200564757 |
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| CorporateAuthor | V. Lashkaryov Institute of Semiconductor Physics, National Academy of Sciences of Ukraine, 45, prosp. Nauky, 03680 Kyiv, Ukraine Mykola Gogol State University of Nizhyn, 2, Hrafska str., Nizhyn, 16600, Ukraine National university “Kyiv Mohyla academy”, 2, Skovorody str., 04070 Kyiv, Ukraine |
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