Low field magnetoelectric and magnetotransport properties of sol–gel grown nanostructured LaMnO3 manganites

Low field magnetoelectric and magnetotransport properties of sol–gel grown nanostructured LaMnO3 manganites

In this communication, we report the results of the studies on dielectric, electroresistance (ER), magnetoresistance (MR) and electric pulse induced resistance (EPIR) change properties under low applied magnetic field of 5 kOe for nanostructured LaMnO3 manganites synthesized by sol–gel method. Final...

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Bibliographic Details
Published in:Journal of alloys and compounds Vol. 719; pp. 47 - 57
Main Authors: Gadani, Keval, Keshvani, M.J., Dhruv, Davit, Boricha, Hetal, Rathod, K.N., Prajapati, Pooja, Joshi, A.D., Pandya, D.D., Shah, N.A., Solanki, P.S.
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 30-09-2017
Elsevier BV
Subjects:
Annealing
Dielectric properties
Dielectric strength
Magnetic fields
Magnetic properties
Magnetoelectric
Magnetoresistance
Magnetoresistivity
Manganite
Manganites
Nanostructure
Oxygen content
Particle size
Sol-gel processes
Sol–gel
Transmission electron microscopy
Transport properties
X-ray diffraction
Manganite
Nanostructure
Sol–gel
Magnetoelectric
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Summary:In this communication, we report the results of the studies on dielectric, electroresistance (ER), magnetoresistance (MR) and electric pulse induced resistance (EPIR) change properties under low applied magnetic field of 5 kOe for nanostructured LaMnO3 manganites synthesized by sol–gel method. Final product of LaMnO3 was annealed at different temperatures under air and oxygen environments to understand the role of oxygen in governing the electric and transport properties of the manganites. X–ray diffraction (XRD) measurements have been performed to investigate the structural behavior while transmission electron microscopy (TEM) measurements have been carried out to understand the particle size morphology. A strong effect of particle size and annealing environment on the dielectric behavior under applied magnetic field for the samples has been discussed on the basis of oxygen content. Variation in sample resistance with applied DC current shows a high ER values finely controlled by magnetic field. MR and its dependence on the annealing temperature and environment have been understood in the context of phase co–existence scenario. Attempt has been made to understand the EPIR behavior under different applied AC voltages and magnetic fields. Magneto – EPIR (MEPIR) studies have been performed to open a new era of technology for better spintronic based thin film devices. [Display omitted] •Single phasic nanostructured manganites can be synthesized at low temperatures.•Sol–Gel technique is low cost, simple and easy to handle.•Strong effect of phase co–existence.•Magnetic field controlled electroresistance.•Large magneto–electric pulsed induced resistance change.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2017.05.165