Title of article :
Impedance Studies on Ca0.5 Sr0.5 Cu3 Ti4 O12 Ceramic Oxide
Author/Authors :
Mustafa, Mazni Universiti Putra Malaysia - Faculty of Science - Department of Physics, Malaysia , W. Yusoff, W. Mohamad Daud Universiti Putra Malaysia - Faculty of Science - Department of Physics, Malaysia , Talib, Zainal Abidin Universiti Putra Malaysia - Faculty of Science - Department of Physics, Malaysia , Shaari, Abdul Halim Universiti Putra Malaysia - Faculty of Science - Department of Physics, Malaysia , Primus, Walter Charles Universiti Putra Malaysia - Faculty of Science - Department of Physics, Malaysia
Abstract :
Ca0.5Sr0.5Cu3Ti4O12 (CSCTO) ceramic oxide was prepared using solid state reaction technique. Impedance measurement was done using High Dielectric Resolution Analyzer (Novocontrol Novotherm) from 30 oC to 250 oC, in the frequency range of 10^-2 to 10^6 Hz. X-ray diffraction pattern showed a single phase with a cubic structure. In the complex impedance plot, three semi-circles were observed; these represented the grain, grain boundary and electrode effect responses. The semi-circles were fitted using a series network of three parallel RC circuits. The resistance was found to increase with the decreasing temperature. The activation energies, Ea, obtained from the Arrhenius plots of CSCTO, were 0.31 eV and 0.73 eV for grain and grain boundary conductivity, respectively. The value of the grain energy was revealed as smaller than the grain boundary energy, due to the semi-conducting grain and the insulating grain boundary characteristic (Sinclair et al., 2002).
Keywords :
CCTO , impedance , grain boundary , Arrhenius
Journal title :
Pertanika Journal of Science and Technology ( JST)
Journal title :
Pertanika Journal of Science and Technology ( JST)
