V. Nathanial scite author profile

V. Nathanial

5Publications

21Citation Statements Received

30Citation Statements Given

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Osmania University

Publications

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Structural and Electrical Properties of Li–Ni Nanoferrites Synthesised by Citrate Gel Autocombustion Method

Aravind

Ravinder

Nathanial

2014

Physics Research International

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An attempt has been made to synthesize nanocrystalline lithium-nickel ferrites with a compositional formula Li0.5−0.5xNixFe2.5−0.5xO4 (where x=0.0 to 1.0 with step of 0.2) by a low temperature citrate gel autocombustion method. Single phase cubic structure is confirmed by X-ray diffraction analysis. This result demonstrates that the prepared samples are homogeneous and the sharp peaks reveal that the samples are in good crystalline form. As the Ni concentration is increased, various interesting changes in the values of the structural parameters like lattice parameter, X-ray density, bulk density, and porosity have been observed. The surface morphology of the prepared samples was studied using scanning electron microscopy (SEM). The DC resistivity measurements were carried out using two-probe method from 200°C to 600°C. The variation of log⁡(σT) with reciprocal of temperature shows a discontinuity at Curie temperature. log⁡(σT) versus 1/T plot of the pure lithium ferrites is almost linear which indicates the Curie temperature of the pure lithium ferrites was beyond our measured temperature. The dielectric properties of these ferrites have been studied using a LCR meter from the room temperature to 700 K at various frequencies up to 5 MHz, which reveals that all the prepared samples have dielectric transition temperature around 600 K.

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Impact Of Transition Metal Ion Doping On Electrical Properties Of Lithium Ferrite Nanomaterials Prepared By auto Combustion Method

Gaffoor¹,

Ravinder²,

Nathanial³

2015

Adv. Mater. Lett.

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Structural and thermoelectric power studies of citrate-gel-prepared cobalt-substituted lithium nanoferrites

et al. 2014

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Investigation of structural and dielectric properties of Gd3+ substituted nickel-zinc ferrite prepared via low-temperature citrate gel self-ignited process

Sandeep

Rambabu

Vinod

et al. 2022

Materials Today: Proceedings

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Electrical Studies on PZT Ceramic

Prasad

Ramaiah

Nathanial

et al. 2012

AMR

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Polycrystalline sample of PZT (52/48) was prepared by solid-state reaction method. X-ray analysis indicated the formation of single-phase. Electrical and impedance-spectroscopy plots were employed to analyze the electrical behavior of the sample, as a function of frequency, in the range of 0.01 Hz to 1 M Hz at different temperatures. Spectroscopic and complex plots indicated non-Debye dielectric relaxation. Detailed electrical studies revealed that the conduction is through hoping of electrons (extrinsic region) at lowers temperature and migration of oxygen vacancies at high temperature (intrinsic region). The results are explained using Euryod’s conduction model and confirmed with pyroelectric and ferroelectric data.

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V. Nathanial

Structural and Electrical Properties of Li–Ni Nanoferrites Synthesised by Citrate Gel Autocombustion Method

Impact Of Transition Metal Ion Doping On Electrical Properties Of Lithium Ferrite Nanomaterials Prepared By auto Combustion Method

Structural and thermoelectric power studies of citrate-gel-prepared cobalt-substituted lithium nanoferrites

Investigation of structural and dielectric properties of Gd3+ substituted nickel-zinc ferrite prepared via low-temperature citrate gel self-ignited process

Electrical Studies on PZT Ceramic

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