Study of Magnetic and Eleclrical Propertis of Spinel Chromites andFerritm

Abstract

Chromium-based spinels are a potential class of magnetic materials that exhibit multiferroic, magnetodielectric and magnetostructural coupling, exchange bias, and magnetization reversal etc. The discovery of such multifunctional properties in spinel chromites has opened up the possibilities of potential application in magnetic storage, magnetic switching, sensors, recording media and read-write head, magneto-dielectric devices, spintronics etc. In addition to the spinel chromites, spinel ferrites are also a well-known type of magnetic materials due to their appealing magnetic and dielectric properties. In the present thesis work, magnetic properties of nickel chromite and nickel ferrite spinels are tuned by substituting magnetic (Mn, Co) and nonmagnetic (Mg, Cd) ions. In the bulk Ni1-xMgxCr2O4 (x = 0 - 0.50) system, a crossover from ferrimagnetic to cluster glass like phase is observed for the doping concentrations x = 0.10, 0.20 and 0.30. However, antiferromagnetic dominant phase is observed for x = 0.40 and 0.50 samples. Exchange bias, magnetic frustration, cluster glass and their magnetic dynamics have been studied in detail for this system. In an attempt to understand the interplay between geometric spin frustration and particle size, we have carried out an in-depth investigation on static and dynamic magnetic properties of 15 atm % Mg substituted Ni0.85Mg0.15Cr2O4 nanoparticles as well. In the Mn substituted Ni1-xMnxCr2O4 (x = 0 - 0.50) system, entropy and critical behavior have been studied. With Mn substitution,