Effect of γ-Radiation on Electrical and Magnetic Properties of Manganite Materials with Spinel Structures
Physical Chemistry • 2012
Publication Information
Authors
M. Khairy M A Mousa
, M. A. Mousa
Keywords
Science
Journal
Physical Chemistry
Publisher
Scientific and Academic Publishing
Volume
2
Issue
6
Pages
109-115
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
Nano Co0.1Zn0.9Mn2O4 samples were prepared by hydrothermal method in absence and presence of surfactants.
The samples were characterized using XRD, SEM and TEM. Magnetic and electrical properties (DC- and AC-conductivity)
were studied. Influences of gamma radiation on the properties studied were investigated. All samples showed tetragonal
spinel crystal structure with morphologies and crystallites sizes depending on the preparation method and lay in the range
of 11- 72 nm. The conductivity results showed semiconducting behavior for the samples investigated and were explained by
hopping mechanism in which the conduction occurred via electron exchange amongst transition metal ions situated on
octahedral sites in spinel lattice. Room temperature magnetic properties using VSM were studied. The physical properties
studied were found to be dependent on the type of surfactants used.
The samples were characterized using XRD, SEM and TEM. Magnetic and electrical properties (DC- and AC-conductivity)
were studied. Influences of gamma radiation on the properties studied were investigated. All samples showed tetragonal
spinel crystal structure with morphologies and crystallites sizes depending on the preparation method and lay in the range
of 11- 72 nm. The conductivity results showed semiconducting behavior for the samples investigated and were explained by
hopping mechanism in which the conduction occurred via electron exchange amongst transition metal ions situated on
octahedral sites in spinel lattice. Room temperature magnetic properties using VSM were studied. The physical properties
studied were found to be dependent on the type of surfactants used.
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