Structural, morphological and magnetic properties variation of nickel-manganese ferrites with lithium substitution

Mixed ferrites with nominal chemical compositions LixNi0.2Mn0.8−2xFe2+xO4 ranging from x=0 to 0.4 in the steps of 0.1 have been prepared by the auto combustion technique. The X-ray diffraction patterns consist of major cubic spinel LixNi0.2Mn0.8−2xFe2+xO4 phase with minor impurity phases (Fe2O3 and...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials 2017-02, Vol.423, p.124-132
Main Authors: Momin, A.A., Parvin, Roksana, Akther Hossain, A.K.M.
Format: Article
Language:English
Subjects:
Auto combustion
Bohr magneton
Bulk density
Curie temperature
Dielectric loss
Dielectrics
Diffraction patterns
Electric properties
Electrical properties
Electrical resistivity
Ferrimagnetism
Ferrites
Grain boundaries
Grain size
High resolution
Impedance
Lithium
Magnetic permeability
Magnetic properties
Magnetic saturation
Magnetism
Magnetization
Manganese
Permittivity
Sintering
Spinel
Theoretical density
Transport properties
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Summary:Mixed ferrites with nominal chemical compositions LixNi0.2Mn0.8−2xFe2+xO4 ranging from x=0 to 0.4 in the steps of 0.1 have been prepared by the auto combustion technique. The X-ray diffraction patterns consist of major cubic spinel LixNi0.2Mn0.8−2xFe2+xO4 phase with minor impurity phases (Fe2O3 and MnO) and with Li substitution phase purity has increased, such that for x=0.4 pure phase spinel structure has been obtained. The lattice parameter has decreased with the increase in Li content obeying Vegard’s law. Both the bulk density and theoretical density have decreased with Li content and with sintering temperature (Ts) up to 1300°C ρB has increased and beyond that it has decreased. Morphological studies have performed by a high resolution optical microscope and observed that average grain size noticeably dependent on Li substitution. The initial permeability (μi′′) has found to decrease with Li substitution. The Curie temperature (TC) has determined from the temperature dependent μi′′ and found to increases with Li content. From the room temperature magnetization measurement, it has observed that all samples are in ferrimagnetic state at room temperature. The number of Bohr magneton has been obtained from the observed saturation magnetization. Dielectric constant, dielectric loss tangent, ac conductivity and complex impedance are studied in the frequency range 20Hz–10MHz. Frequency dependence of dielectric constant in lower frequencies indicates a usual dielectric dispersion due to the Maxwell-Wagner type interfacial polarization. Dielectric loss tangent shows similar behavior like dielectric constant. The complex impedance analysis has been used to study the effect of grain and grain boundary on the electrical properties and with Li content both grain and grain boundary resistance show an increasing trend. The ac conductivity shows frequency independent behavior at the low frequency side and with increasing frequency the conductivity increases. •Li-Ni–Mn ferrites have been prepared by auto combustion technique.•Impurity phases decrease with increasing Li concentration.•Frequency stability of μi′′ increase with increasing Li content.•The TC increases almost linearly with increasing Li substitution.•The dielectric constant shows usual dielectric dispersion at low frequency.
ISSN:0304-8853
1873-4766
DOI:10.1016/j.jmmm.2016.09.078