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

Karnajit Singh, Hodam; Mohapatra, Prajna P.; Pandey, Subingya; Dobbidi, Pamu

doi:10.1063/5.0168293

Cited by 3 publications

(1 citation statement)

References 70 publications

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“…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.…”

Section: Impedance Spectroscopymentioning

confidence: 99%

Impacts of diffusive ion migration on ferroelectric properties in BaTiO₃ composite

Sun,

Singh,

Ravi

et al. 2024

J. Phys. D: Appl. Phys.

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Multiferroic composites, combining ferroelectric and ferromagnetic properties, hold significant promise in today's technology landscape in a diverse array of fields including information storage devices, energy harvesters, current and magnetic field sensors, tunable devices, and various other domains. Exploring the interaction between these materials and their impact on multiferroic properties is crucial for advancing miniaturized, high-performance devices. A deeper understanding of the interplay between ionic dynamics and microstructure is essential for engineering these composites effectively. This study examines the deterioration of the ferroelectric property of BaTiO3 composite with the incorporation of the magnetic BaFe12O19. The composite is synthesized using the conventional solid-state reaction method. Structural analysis involves X-ray diffraction (XRD), Raman spectroscopy, and field-emission scanning electron microscopy (FESEM). The dielectric and ferroelectric investigations, as well as magnetic analysis, are conducted. The study shows the existence of the electron hopping between different oxidation states of the cations and it elevates the material's conductivity and, generates a leakage current that largely affects the ferroelectric properties by preventing saturation polarization

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Section: Impedance Spectroscopymentioning

confidence: 99%

Impacts of diffusive ion migration on ferroelectric properties in BaTiO₃ composite

Sun,

Singh,

Ravi

et al. 2024

J. Phys. D: Appl. Phys.

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Tuning the Magnetic and Electrical Properties of LaYFe2O6 by Mn Substitution

Ghosh,

Barik,

Sahoo

et al. 2024

J Supercond Nov Magn

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Exploring giant dielectric constant in Dy₂CoMnO₆: evidence of non-overlapping small polaron hopping

Pokhrel,

Sahu,

Singh

et al. 2024

Phys. Scr.

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Perovskites, both natural and synthetic, form a large class of materials are a vast class of materials with significant tech nological relevance due to their remarkable physical properties, such as superconductivity, magnetoresistance, ionicconductivity, and diverse dielectric behaviors. In this study, the dielectric relaxation and transport properties of thedouble perovskite Dy2CoMnO6 (DCMO) synthesized via high-energy ball milling are investigated. DCMO exhibitsa notably large dielectric constant, attributed to a combination of intrinsic and extrinsic mechanisms. Frequency dependent dielectric studies reveal non-Debye-like behavior, validated by augmented Havriliak–Negami function fit ting. Impedance spectroscopy confirms the semiconducting nature of DCMO, showing a negative temperature co efficient of resistance, and identifies two distinct relaxation processes corresponding to grain boundaries and graininteriors thereby highlighting the impact of microstructure and defects. The Cole-Cole plot further supports the non Debye behavior, while thermally activated relaxation suggests damped charge carrier dynamics at grain boundaries.Conduction analysis using augmented Jonscher’s power law reveals non-overlapping small polaron tunneling as thedominant mechanism driving both the dielectric response and transport properties, with DC conductivity suggestinga three-dimensional variable range hopping model. These results provide significant insights into the dielectric andtransport properties of DCMO, highlighting its promising potential for advanced electronic applications.

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

Cited by 3 publications

References 70 publications

Impacts of diffusive ion migration on ferroelectric properties in BaTiO₃ composite

Impacts of diffusive ion migration on ferroelectric properties in BaTiO₃ composite

Tuning the Magnetic and Electrical Properties of LaYFe2O6 by Mn Substitution

Exploring giant dielectric constant in Dy₂CoMnO₆: evidence of non-overlapping small polaron hopping

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

Cited by 3 publications

References 70 publications

Impacts of diffusive ion migration on ferroelectric properties in BaTiO3 composite

Impacts of diffusive ion migration on ferroelectric properties in BaTiO3 composite

Tuning the Magnetic and Electrical Properties of LaYFe2O6 by Mn Substitution

Exploring giant dielectric constant in Dy2CoMnO6: evidence of non-overlapping small polaron hopping

Contact Info

Product

Resources

About

Impacts of diffusive ion migration on ferroelectric properties in BaTiO₃ composite

Impacts of diffusive ion migration on ferroelectric properties in BaTiO₃ composite

Exploring giant dielectric constant in Dy₂CoMnO₆: evidence of non-overlapping small polaron hopping