E-ISSN 2063-5346
 

Research Article 
ECB. 2021; 10(3): 186-190


STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE

Desai H.B., Kumar A., Tanna A.R.

Abstract
Magnetic magnesium ferrite nanoparticles have been synthesized through an auto combustion method. The prepared ferrite is characterized by X-ray diffraction, particle size analyzer, Fourier transform infrared spectroscopy, scanning electron microscopy, energy dispersive X-ray spectroscopy, vibrating sample magnetometry and Mossbauer spectroscopy. It is confirmed that the prepared sample has a cubic structure in nature through XRD. The crystalline size is determined by the Debye Scherrer formula, results are confirmed with particle size analyzer data. The FTIR spectra are used to calculate the force constant of tetrahedral sites and octahedral sites. The morphology and the quantitative analysis of the synthesized sample are studied by SEM and EDAX. The prepared nanoparticles' magnetic properties have been studied at room temperature by means of hysteresis loop measurement using vibrating sample magnetometer and Mossbauer spectroscopy. The value of saturation magnetization, coercive field, and cation distribution of magnesium ferrite is obtained from the magnetic measurements. © 2021 Deuton-X Ltd. All rights reserved.

Key words: Auto combustion method; Ferrite nanoparticles; Mossbauer spectroscopy; Vibrating sample magnetometry; X-ray diffraction


 
ARTICLE TOOLS
Abstract
PDF Fulltext
How to cite this articleHow to cite this article
Citation Tools
Related Records
 Articles by Desai H.B.
Articles by Kumar A.
Articles by Tanna A.R
on Google
on Google Scholar

How to Cite this Article
Pubmed Style

Desai H.B., Kumar A., Tanna A.R. STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE. ECB. 2021; 10(3): 186-190.


Web Style

Desai H.B., Kumar A., Tanna A.R. STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE. https://www.eurchembull.com/?mno=52280 [Access: September 25, 2022].


AMA (American Medical Association) Style

Desai H.B., Kumar A., Tanna A.R. STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE. ECB. 2021; 10(3): 186-190.



Vancouver/ICMJE Style

Desai H.B., Kumar A., Tanna A.R. STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE. ECB. (2021), [cited September 25, 2022]; 10(3): 186-190.



Harvard Style

Desai H.B., Kumar A., Tanna A.R (2021) STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE. ECB, 10 (3), 186-190.



Turabian Style

Desai H.B., Kumar A., Tanna A.R. 2021. STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE. European Chemical Bulletin, 10 (3), 186-190.



Chicago Style

Desai H.B., Kumar A., Tanna A.R. "STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE." European Chemical Bulletin 10 (2021), 186-190.



MLA (The Modern Language Association) Style

Desai H.B., Kumar A., Tanna A.R. "STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE." European Chemical Bulletin 10.3 (2021), 186-190. Print.



APA (American Psychological Association) Style

Desai H.B., Kumar A., Tanna A.R (2021) STRUCTURAL AND MAGNETIC PROPERTIES OF MgFe2O4 FERRITE NANOPARTICLES SYNTHESIS THROUGH AUTO COMBUSTION TECHNIQUE. European Chemical Bulletin, 10 (3), 186-190.