Dual-phase formation in LaFeO3 upon doping of rare-earth Dy3+: Struct–Opto–Dielectric–Magnetic characteristics

The potential technological uses of perovskite-based LaFeO 3 nanostructured materials have gotten a lot of interest in recent years. In this present investigation, we have attempted to investigate the substitution of unpaired 4f electrons of the Dy 3+ ions into LaFeO 3 material would play a crucial...

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Bibliographic Details
Published in:Journal of materials science. Materials in electronics 2022-05, Vol.33 (13), p.10626-10644
Main Authors: Raji, Ramesh Kumar, Ramachandran, Tholkappiyan, Muralidharan, M., Suriakarthick, R., Dhilip, M., Raja, A., Aravinth, K., Karthikeyan, S., Ramasamy, P., Kurapati, Vishista, Hamed, Fathalla, Mourad, Abdel-Hamid I.
Format: Article
Language:English
Subjects:
Antiferromagnetism
Characterization and Evaluation of Materials
Chemistry and Materials Science
Dielectric properties
Dysprosium
Ferrites
Fourier transforms
Infrared analysis
Infrared spectroscopy
Lanthanum
Lanthanum compounds
Magnetic measurement
Magnetic properties
Magnetic saturation
Materials Science
Measurement techniques
Motivation
Nanostructured materials
Optical and Electronic Materials
Optical properties
Perovskites
Photoluminescence
Physical properties
Raman spectroscopy
Rare earth elements
Spectroscopic analysis
Spectrum analysis
Substitution reactions
Synthesis
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Summary:The potential technological uses of perovskite-based LaFeO 3 nanostructured materials have gotten a lot of interest in recent years. In this present investigation, we have attempted to investigate the substitution of unpaired 4f electrons of the Dy 3+ ions into LaFeO 3 material would play a crucial role in the various functional properties, thereby enhancing their suitability for various applications. The motivation of this work is to synthesize, rare-earth Dy 3+ -doped lanthanum ferrite with the composition of La 1− x Dy x FeO 3 ( x  = 0 to 0.25) using the conventional solid-state reaction method. The effect of Dy 3+ substitution in lanthanum ferrite on the physical properties was evaluated using X-ray diffraction, Fourier transform infrared spectroscopy, Raman analysis, scanning electron microscopy, Elemental/mapping analysis, UV–Vis spectroscopy, photoluminescence spectroscopy, dielectric and magnetic measurement techniques. The novelty of this work: the synthesized ferrite materials shows both orthorhombic structured Pbnm phase of LaFeO 3 and cubic ( I 21 3 ) Dy 2 O 3  phase were observed from Rietveld refinement of XRD analysis. While increasing the Dy substitution, the Dy 2 O 3 phase starts to increase from 1.44 to 15.05%, respectively. The optical behavior was greatly affected and reduced the optical band gap, E g values from 3.68 to 3.17 with the effect of Dy. The dielectric properties of synthesized ferrite materials realized a dielectric constant dispersion that displayed a maximum at low frequency. The synthesized La 1− x Dy x FeO 3 ferrite materials displayed canted antiferromagnetic and paramagnetic behavior. The values of saturation magnetization ( M s ) were enhanced from 0.108 ( x  = 0) to 1.383 ( x  = 0.25) emu/g. It is suggested that synthesized La 1− x Dy x FeO 3 ferrite materials with different optical, dielectric, and magnetic properties could be tailored for different requirements.
ISSN:0957-4522
1573-482X
DOI:10.1007/s10854-022-08047-6