Electric transport properties study of bulk BaFe12O19 by complex impedance spectroscopy

Abstract

Polycrystalline M-type hexagonal Barium ferrite (BaFe12O19) was prepared by the solid state reaction method. The single phase and well grain growth of micrometer range was confirmed by XRD pattern and SEM image respectively. The presence of Fe2+ and Fe3+ states were verified by XPS study. In this report, the electric transport properties of BaFe12O19 (BaM) was systematically investigated and analyzed in the frequency range of 100Hz to 1MHz and temperature range of 30–200°C. The relaxation behaviors were examined by considering both impedance and modulus formalism, to differentiate intrinsic (grain) and extrinsic (grain boundary and electrode polarization) conduction process. The co-contribution effect of grain and grain boundary was verified which appeared as a single relaxation process in the chosen frequency and temperature range. However, the sample experienced the early (even at room temperature) arrival of surface conduction which dominates over grain boundary with increasing of temperature.