Investigation of electric transport behavior of bulk CoFe₂O₄ by complex impedance spectroscopy

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• 作者：R.K. P ; a ; D. Behera
• 关键词：Ceramics ; Sintering ; Dielectric response ; Electrochemical impedance spectroscopy ; Grain boundaries
• 刊名：Journal of Alloys and Compounds
• 出版年：25 February, 2014
• 年：2014
• 卷：587
• 期：Complete
• 页码：481-486
• 全文大小：2243 K

文摘

Cobalt ferrite synthesized by a conventional ceramic route had confirmed its single phase from XRD pattern and well grain growth of micrometer range was found in SEM image. The study exposes for first time, the evolution of grains and interfaces (grain boundaries and electrode contact) effect in bulk CoFe₂O₄ in the temperature range 30 掳C-250 掳C as a function of frequencies varying from 100 Hz-1 MHz. The low temperature (<75 掳C) relaxation peak appears in imaginary impedance plot attributes to grain effect. Two sets of coexistence of peaks is observed at elevated temperature range. The coexistence is related to grains and grain boundaries found in temperature domain 75 掳C 猢?#xA0;T 猢?#xA0;175 掳C and again grain boundaries and electrode effect in domain 200 掳C 猢?#xA0;T 猢?#xA0;250 掳C. The Nyquist diagram shows three distinct semicircles at 175 掳C and 200 掳C. The impedance behavior has been modeled with equivalent circuit of RC-RC-RQ for T 猢?#xA0;175 掳C and RC-RQ-RQ for T 猢?#xA0;200 掳C. The stretching exponential factor 尾 calculated from the well fitted double peaks of imaginary electric modulus spectra with KWW (Kohlrausch-Williams-Watts) function of bulk cobalt ferrite, is reported first time in our work. We found 尾_g = 0.62 and 尾_gb = 0.86 for grains and grain boundaries respectively. The Maxwell-Wagner polarization is responsible for the dielectric behavior. The high permittivity and conductivity has been explained by the help of exchange interaction of variable oxidation states of iron and cobalt ions.