Study of structural and magnetic properties of Li–Ni nanoferrites synthesized by citrate-gel auto combustion method

An attempt has been made to prepare nanocrystalline nickel substituted lithium ferrites, having chemical composition Li0.5−0.5xNixFe2.5−0.5xO4 (where x=0.0–1.0 with a step increment of 0.2) by a citrate-gel auto combustion method. Structural characterization of the synthesized samples was carried ou...

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Bibliographic Details
Published in:Ceramics international Vol. 42; no. 2; pp. 2941 - 2950
Main Authors: Aravind, G., Raghasudha, M., Ravinder, D., Manivel Raja, M., Meena, S.S., Bhatt, Pramod, Hashim, Mohd
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2016
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Summary:An attempt has been made to prepare nanocrystalline nickel substituted lithium ferrites, having chemical composition Li0.5−0.5xNixFe2.5−0.5xO4 (where x=0.0–1.0 with a step increment of 0.2) by a citrate-gel auto combustion method. Structural characterization of the synthesized samples was carried out by X-ray diffraction analysis (XRD) and field emission scanning electron microscopy (FESEM). Magnetic measurements were carried out using vibrating sample magnetometer (VSM) and Mossbauer spectroscopy. From these measurements it is observed that Ni2+ substitution in lithium ferrites has strong influence on magnetic properties. Hysteresis loops indicate that the saturation magnetization values were decreased from 56emu/gm to 28emu/gm by increasing the Ni2+ content in the Li–Ni ferrite samples. This signifies the fact that the lesser magnetic Ni2+ ions are substituted for the magnetic Fe3+ ions in the octahedral sub-lattice of the ferrites. Field Cooled (FC) and Zero Field Cooled (ZFC) magnetization measurements under an applied field of 100Oe and 1000Oe in the temperature range of 5–375K were performed on two samples Li0.1Ni0.8Fe2.1O4 and NiFe2O4. The magnetization as a function of an applied field 10T was carried out at two different temperatures 5K and 310K. These measurements showed the blocking temperature of the two samples at around 350K above which the materials show super-paramagnetic behavior where the coercivity and remanence magnetization are almost zero.
ISSN:0272-8842
1873-3956
DOI:10.1016/j.ceramint.2015.10.077