Unlocking the potential of hexaferrite–spinel ferrite composites: Microstructure-induced colossal permittivity and relaxation phenomena

Abstract: The solid-state synthesized dense ceramic composite, consisting of M-type hexaferrite Ba0.5Sr0.5Fe12O19 and inverse spinel ferrite Ni0.3Co0.2Zn0.5Fe2O4 (NCZFO) with varying concentrations, demonstrates the presence of apparent colossal permittivity along with dielectric relaxation behaviors at the higher frequency regions for all the composites. This phenomenon manifests as a giant dielectric permittivity of approximately 105 at 1 kHz, gradually decreasing to around 103 at 1 MHz at room temperature. It can be … Show more

“…It has been observed that the bulk properties of many conducting materials are best represented by the addition of a constant phase element (Q) in parallel with R and C [56]. The presence of Q can be attributed to the deviation of the impedance response from the ideal Debye relaxation behavior [57]. Q = A 0 (jω) n , where A 0 and n are temperature dependent parameters.…”

Impacts of diffusive ion migration on ferroelectric properties in BaTiO₃ composite

“…It has been observed that the bulk properties of many conducting materials are best represented by the addition of a constant phase element (Q) in parallel with R and C [56]. The presence of Q can be attributed to the deviation of the impedance response from the ideal Debye relaxation behavior [57]. Q = A 0 (jω) n , where A 0 and n are temperature dependent parameters.…”

Impacts of diffusive ion migration on ferroelectric properties in BaTiO₃ composite

Tuning the Magnetic and Electrical Properties of LaYFe2O6 by Mn Substitution