Unraveling the Complex Interplay of Phase Transitions in Spinel Ferrites: A Comprehensive Quantum Mechanical Vibrational Study of ZnFe₂O₄

Abstract: The rich phase transition landscape of spinel ferrites and its profound impact on their physical properties have garnered significant interest in recent years. The complex interplay of divalent and trivalent cations distributed across A-and B-sites gives rise to a captivating variety of interactions. In this study, we delve into the structural, electronic, magnetic, and vibrational properties of ZnFe 2 O 4 as a function of the degree of inversion, employing first-principles density functional theory with globa… Show more

“…This peak consists of stretching modes of Fe-O and bending modes of Fe-O-Fe, Fe-O-Mg, and Fe-O-Zn, which explains its low intensity. The absence of this peak in the normal spectra aligns with previous findings 34,35 and confirms its association with the inverse structure.…”

Probing the influence of cation distribution on the vibrational dynamics and phase transitions in Mg-doped zinc ferrites: Quantum mechanical study

“…This peak consists of stretching modes of Fe-O and bending modes of Fe-O-Fe, Fe-O-Mg, and Fe-O-Zn, which explains its low intensity. The absence of this peak in the normal spectra aligns with previous findings 34,35 and confirms its association with the inverse structure.…”

Probing the influence of cation distribution on the vibrational dynamics and phase transitions in Mg-doped zinc ferrites: Quantum mechanical study

Transformation in structural phase on annealing and its impact on optical and dielectric properties of manganese ferrite nanoparticles

A comprehensive review on the synthesis of ferrite nanomaterials via bottom-up and top-down approaches advantages, disadvantages, characterizations and computational insights