Synthesis and characterization of phase-stabilized Gd2FeMnO6 double-Perovskite compound

In the recent past, a series of double-perovskite compounds with the molecular formula of A 2 BB'O 6 have gained keen interest among other inorganic compounds. It is due to the fact that the exhibition of large variety of physical properties pertaining to the elements accommodated at A, B and B...

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Bibliographic Details
Published in:Journal of materials science. Materials in electronics 2021-04, Vol.32 (8), p.10266-10276
Main Authors: Punitha, J. Stella, Nataraj, A., Anbarasu, V., Dhilip, M., Kumar, K. Saravana
Format: Article
Language:English
Subjects:
Antiferromagnetism
Characterization and Evaluation of Materials
Chemistry and Materials Science
Crystal structure
Electron micrographs
Energy value
Ferromagnetism
Field emission
Grain size
Inorganic compounds
Manganese
Materials Science
Morphology
Optical and Electronic Materials
Oxidation
Perovskites
Photoelectrons
Photoluminescence
Physical properties
Raman spectra
Room temperature
Spectrum analysis
Valence
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Summary:In the recent past, a series of double-perovskite compounds with the molecular formula of A 2 BB'O 6 have gained keen interest among other inorganic compounds. It is due to the fact that the exhibition of large variety of physical properties pertaining to the elements accommodated at A, B and B' sites. In connection to the preparation of Gd 2 FeMnO 6 , a novel single-phased double perovskite compound has been carried out using conventional solid-state reaction route. Rietveld refinement of powder XRD patterns reveals that the compound crystallizes in orthorhombic crystal structure with a space group Pbnm . X-ray photoelectron spectroscopy analysis confirms the presence of Mn and Fe ions in +3 oxidation state. The field emission scanning electron micrograph reveals the granular growth morphology, having grains with irregular shape with the average grain size of about 5–10 µm. Room-temperature magnetization measurement reveals the dominant antiferromagnetic behaviour with weak ferromagnetic interactions. Deconvoluted Raman spectra using Lorentzian function confirm the first and second orders of Raman modes of the prepared compound. The activation energy value of E a  = 0.16 eV obtained from the Arrhenius plot indicates the dielectric stability of the material. The photoluminescence study shows the excitation by the light from ultraviolet region (350 to 450 nm), exhibiting blue (355 nm) to 8 S 7/2  →  6 P 3/2 transition, which may provide new applications in the field of modern electronics.
ISSN:0957-4522
1573-482X
DOI:10.1007/s10854-021-05682-3