Article: High density nanoparticle Mn-Zn ferrite synthesis, characterisation and magnetic properties Journal: International Journal of Nanotechnology (IJNT) 2011 Vol.8 No.10/11/12 pp.948 - 962 Abstract: The amazing magnetic properties exhibited by nanoparticles Mn-Zn ferrites and their promising technological and medical applications have attracted much interest in recent years. Nanoparticle Mnx Zn(1-x)Fe2O4 spinel ferrites with x = 0.6/0.63/0.65/0.67/0.7 were synthesised by the nitrilotriacetate precursor method employing microwave combustion synthesis. Powder X-ray diffractometry (XRD) confirmed the formation of the ferrite phase in all samples. IR analysis was done to verify formation of spinel structure. Elemental analysis using EDS confirmed the nanoparticle composition. The crystallite size was calculated from peak widths using the Scherrer formula, yielding a size in the range of 10–25 nm. Transmission electron microscopy was also performed on the samples to testify formation of nanosized crystallites in the sample. Saturation magnetisation (Mr), retentivity (Ms) and coercivity (Hc) measurements were carried out on the samples using standard hysteresis loop tracer equipment. The saturation magnetisation values were found to be in the range of 58.6–63.2 emu/g with very low values for (Mr/Ms). Variation of specific magnetisation with temperature and Curie temperature measurements were carried out using pulse field AC susceptibility measuring equipment. These measurements indicated formation of single domain (SD) material with dependence of Curie temperature on Zn concentration. The density of the samples was found to be high. Inderscience Publishers - linking academia, business and industry through research

Title: High density nanoparticle Mn-Zn ferrite synthesis, characterisation and magnetic properties

Authors: R.B. Tangsali; J.S. Budkuley; S.H. Keluskar; G.K. Naik; S.C. Watave

Addresses: Department of Physics, Department of Chemistry, Goa University, Taleigao Plateau, Goa 403206, India. ' Department of Physics, Department of Chemistry, Goa University, Taleigao Plateau, Goa 403206, India. ' Department of Physics, P.E.S.S.R.S.N. College of Arts and Science, Farmagudi, Goa 403401, India. ' Department of Chemistry, S.P. Chowgule. College of Arts and Science, Margao, Goa 403601, India. ' Department of Physics, Gogate Gogalekar College, Ratnagari, Maharashtra, India

Abstract: The amazing magnetic properties exhibited by nanoparticles Mn-Zn ferrites and their promising technological and medical applications have attracted much interest in recent years. Nanoparticle Mnx Zn_(1-x)Fe₂O₄ spinel ferrites with x = 0.6/0.63/0.65/0.67/0.7 were synthesised by the nitrilotriacetate precursor method employing microwave combustion synthesis. Powder X-ray diffractometry (XRD) confirmed the formation of the ferrite phase in all samples. IR analysis was done to verify formation of spinel structure. Elemental analysis using EDS confirmed the nanoparticle composition. The crystallite size was calculated from peak widths using the Scherrer formula, yielding a size in the range of 10–25 nm. Transmission electron microscopy was also performed on the samples to testify formation of nanosized crystallites in the sample. Saturation magnetisation (Mr), retentivity (Ms) and coercivity (Hc) measurements were carried out on the samples using standard hysteresis loop tracer equipment. The saturation magnetisation values were found to be in the range of 58.6–63.2 emu/g with very low values for (Mr/Ms). Variation of specific magnetisation with temperature and Curie temperature measurements were carried out using pulse field AC susceptibility measuring equipment. These measurements indicated formation of single domain (SD) material with dependence of Curie temperature on Zn concentration. The density of the samples was found to be high.

Keywords: nanoparticles; precursor method; ferrites; magnetic properties; density; superparamagnetism; hysteresis; nanotechnology; magnesium; zinc.

DOI: 10.1504/IJNT.2011.044439

International Journal of Nanotechnology, 2011 Vol.8 No.10/11/12, pp.948 - 962

Published online: 24 Dec 2011 *

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Title: High density nanoparticle Mn-Zn ferrite synthesis, characterisation and magnetic properties

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