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Structural, Magnetic, Electrical and Dielectric Characterizations of Co0.5Ni0.5FeCuO4 Ferrite

Author name : Nadia . . Zaidi
Publication Date : 2024-06-30
Journal Name : Journal of NanoScience in Advanced Materials (NANOSAM)

Abstract

The Co0.5Ni0.5FeCuO4 compound was elaborated using sol-gel reaction route. X-ray diffraction patterns
indicated that the sample crystallize in the cubic spinel structure (Fd-3m space group). Magnetic
measurements revealed that the prepared sample showed a paramagnetic-ferromagnetic transition at TC=
785 K. Then, dielectric data has been carried out by means of impedance spectroscopy in a wide frequency
and temperature ranges. For the sample, the activation energy Ea estimated from the slope of the linear fit
plot is equal to 0.42 eV at temperature range 200-420 K. The electrical modulus and impedance studies
reveal the presence of a relaxation phenomenon with non-Debye type in the prepared sample. Nyquist
equivalent circuit.
representation (Z″ vs. Zʹ) was plotted and their characteristic behavior was analyzed in terms of electrical

Keywords

Keywords: Spinel ferrite; Activation energy; Modulus; Nyquist representation; relaxation phenomenon.

Publication Link

https://zenodo.org/records/12540643

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