Influence of Al3+ substitution on impedance spectroscopy studies of Ni0.27Cu0.10Zn0.63AlxFe2-xO4

Influence Of Al3+ Substitution On Impedance Spectroscopy Studies Of Ni0.27Cu0.10Zn0.63AlxFe2-xO4 

M. Belal Hossen1*,  A.K.M. Akther Hossain2

1Department of Physics, Chittagong University of Engineering and Technology, Chittagong, Bangladesh

2Department of Physics, Bangladesh University of Engineering and Technology, Dhaka, Bangladesh 

Adv. Mater. Lett., 2015, 6 (9), pp 810-815

DOI: 10.5185/amlett.2015.5854

Publication Date (Web): Sep 06, 2015


The influence of Al3+ substitution on the microstructure and impedance spectroscopy of Ni0.27Cu0.10Zn0.63AlxFe2-xO4 has been studied by scanning electron microscopy and impedance analyzer where the formation of the material in the spinel crystal structure was initially confirmed by X-ray structural analysis with room temperature data. The surface morphology indicates well defined grains separated by grain boundaries and with Al substitution average grain size decrease from 17 μm to 12 μm and zinc losses as well. The complex-plane impedance spectra indicate that the material can be represented by two semicircular arcs (its tendency) which corresponds to the bulk and the grain boundary resistance at high and low frequencies respectively. With Al substitution both grain and grain boundary resistance increases from 7.48 kΩ to 15.62 kΩ and 92.34 kΩ to 192.46 k respectively. Electric modulus spectra reflect the contributions from grain and grain boundary effects: the large resolved semicircle arc caused by the grain effect and the small poorly resolved semicircle arc was attributed to the grain boundary.


Surface morphology, impedance spectroscopy, enhanced grain and grain boundary resistance, resolve relaxation.

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