Chromium Substituted Cobalt Ferrites by Glycine-Nitrates Process

Dana Gingasu; Lucian Diamandescu; Ioana Mindru; Gabriela Marinescu; Daniela C. Culita; Jose Maria Calderon-Moreno; Silviu Preda; Cristina Bartha; Luminita Patron

doi:10.5562/cca2743

Croatica Chemica Acta (Dec 2015)

Chromium Substituted Cobalt Ferrites by Glycine-Nitrates Process

Dana Gingasu,
Lucian Diamandescu,
Ioana Mindru,
Gabriela Marinescu,
Daniela C. Culita,
Jose Maria Calderon-Moreno,
Silviu Preda,
Cristina Bartha,
Luminita Patron

Affiliations

Dana Gingasu: Ilie Murgulescu Institute of Physical Chemistry, Splaiul Independentei 202, Bucharest 060021, Romania
Lucian Diamandescu: National Institute of Materials Physics, 105-bis Atomistilor Street, P. O. Box MG-7, Bucharest-Magurele 077125, Romania
Ioana Mindru: Ilie Murgulescu Institute of Physical Chemistry, Splaiul Independentei 202, Bucharest 060021, Romania
Gabriela Marinescu: Ilie Murgulescu Institute of Physical Chemistry, Splaiul Independentei 202, Bucharest 060021, Romania
Daniela C. Culita: Ilie Murgulescu Institute of Physical Chemistry, Splaiul Independentei 202, Bucharest 060021, Romania
Jose Maria Calderon-Moreno: Ilie Murgulescu Institute of Physical Chemistry, Splaiul Independentei 202, Bucharest 060021, Romania
Silviu Preda: Ilie Murgulescu Institute of Physical Chemistry, Splaiul Independentei 202, Bucharest 060021, Romania
Cristina Bartha: National Institute of Materials Physics, 105-bis Atomistilor Street, P. O. Box MG-7, Bucharest-Magurele 077125, Romania
Luminita Patron: Ilie Murgulescu Institute of Physical Chemistry, Splaiul Independentei 202, Bucharest 060021, Romania

DOI: https://doi.org/10.5562/cca2743
Journal volume & issue: Vol. 88, no. 4
pp. 445 – 451

Abstract

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Chromium substituted cobalt ferrites (CoFe2–xCrxO4, 0 ≤ x ≤ 2) were synthesized through solution combustion method using glycine as fuel, named glycine-nitrates process (GNP). As evidenced by X-ray diffraction data (XRD), single cubic spinel phase was formed for all CoFe2–xCrxO4 (0 ≤ x ≤ 2) series. The cubic lattice parameter (a) decreases with increasing chromium content. Room temperature 57Fe Mössbauer spectra revealed the Fe3+ and Cr3+ site occupancy, the local hyperfine magnetic fields and the substitution of Fe3+ by Cr3+ in the lattice. Scanning electron microscopy (SEM) showed a refinement of particle size with the increase of Cr3+ content. Magnetic measurements from 5 K to 120 K have shown a dropping in the saturation magnetization as the chromium content increases. This behaviour has been explained in terms of substitution of Fe3+ by Cr3+ in the cubic lattice of cobalt ferrite.

Published in Croatica Chemica Acta

ISSN: 0011-1643 (Print); 1334-417X (Online)
Publisher: Croatian Chemical Society
Country of publisher: Croatia
LCC subjects: Science: Chemistry
Website: http://cca.hkd.hr/

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