Faculty Publications
Permanent URI for this communityhttps://idr.nitk.ac.in/handle/123456789/18736
Publications by NITK Faculty
Browse
3 results
Search Results
Item Electrical, dielectric and magnetic properties of Sn-doped hematite (?-SnxFe2-xO3) nanoplates synthesized by microwave-assisted method(Elsevier Ltd, 2018) Bindu, K.; Ajith, K.M.; Nagaraja, H.S.Hematite nanoparticles are of interest due to their exceptional electrical and magnetic behavior and various technological applications. The doping of hematite can vary its electrical and magnetic properties. Here, we report the effect of different concentrations of Tin doping on electrical, dielectric and magnetic properties of hematite synthesized by the microwave-assisted method. Tin-doped ?- Fe2O3 (?-SnxFe2-xO3) samples have been characterized using XRD, TGA, FESEM, and EDS (mapping). XRD pattern shows the rhombohedral structure of ?-SnxFe2-xO3. The synthesized samples have nanoplate like structure with a uniform distribution of tin throughout the sample. Electrical properties were investigated using dielectric and impedance studies. The dc resistivity and ac conductivity decreased with increase in concentration up to x = 0.06 (Sn0.06Fe1.94O3). However, it increased with further increase in the concentration of tin. The hopping of electrons between Fe3+ and Fe2+ in octahedral sites accounts for the observed conduction behavior. A single semi-circle of the cole-cole plot for ?-SnxFe2-xO3 indicates the dominant grain boundary effect in conduction. Dielectric constant and loss factor reveal the dielectric relaxation in ?-SnxFe2-xO3 samples. The magnetic properties were studied using VSM, which shows that ?-SnxFe2-xO3 are antiferromagnetic/weakly ferromagnetic in nature with high coercivity. © 2017 Elsevier B.V.Item Influence of cations on the dielectric properties of spinel structured nanoferrites(Institute of Physics Publishing helen.craven@iop.org, 2019) Bindu, K.; Ajith, K.M.; Nagaraja, H.S.MFe2O4 (M: Fe, Zn, Ni and Sn) nanoparticles were prepared using single step hydrothermal method. Their structural, compositional and dielectric properties have been studied to investigate the effect of cations on spinel ferrites. XRD confirms the spinel structure of the samples with substitution of Zn, Ni and Sn in the lattice sites of Fe. FTIR spectra of all samples have characteristic ?1 and ?2 bands. SEM and EDS mapping show uniform distribution of cations throughout the samples. ZnFe2O4 and SnFe2O4 have higher ac conductivity and dielectric constant than that of Fe3O4 and NiFe2O4, which can be attributed to the different cationic distribution in the spinel structure. © 2019 IOP Publishing Ltd.Item Temperature-dependant phase transformation of NixFey?xOz nanoferrites: their dielectric and magnetic properties(Springer Verlag service@springer.de, 2019) Bindu, K.; Nagaraja, H.S.0–5 wt% nickel-doped iron oxide nanoparticles were synthesised using microwave-assisted method. Microwave-treated samples were annealed at 450 °C and 600 °C and named as NixFey?xOz-450 and NixFe2?xO3-600 (x = 0. 0.1, 0.2, 0.3, 0.4 and 0.5), respectively. XRD, TGA, SEM and EDS were performed to study structural, thermal, morphological and compositional properties of the samples. Undoped sample has hematite phase at both 450 and 600°C, which is confirmed from both XRD and TGA. On nickel doping, an intermediate phase formed and there occurred two transition temperatures in TGA. NixFe2?xO3-600 forms rhombohedral phase, while NixFey?xOz-450 forms a mixture of rhombohedral and inverse spinel structures till 2 wt% nickel concentration and pure inverse spinel structure above 2 wt% of nickel doping. M–H curves of samples from vibrating sample magnetometer (VSM) show the ferrimagnetic behaviour of both NixFey?xOz-450 and NixFe2?xO3-600 except Fe2O3-600 which shows antiferromagnetic behaviour. In both set of samples, saturation magnetisation increases with increasing nickel concentration. Further, a two-probe method was used to study electrical and dielectric properties of the samples. AC conductivity (?ac), dielectric constant (??) and loss factor (tan ?) of NixFey?xOz-450 decreased with increase in 2 wt% nickel concentration and then increased with further increase in nickel, whereas these factors varied randomly with increasing nickel concentration for NixFe2?xO3-600. ?ac, ?? and tan ? values of NixFe2?xO3-600 are lower than those of NixFey?xOz-450, which can be attributed to the formation of hematite phase at 600 °C. © 2019, Springer-Verlag GmbH Germany, part of Springer Nature.