The electronic and magnetic structures of transition metal ferrites have been of interest for more than a decade. The rich of physical properties are attributed to the strong correlations between charge and spin of the electrons and the wealth of lattice structures in transition metal oxides. These properties can be tuned by controlling the composition, temperature or other physical variables such as magnetic field. The epitaxial growth of ferrites on single crystal MgO substrate allows the preparation of high quality thin films and superlattices. We have investigated the cation distributions, electronic and magnetic variations, and structural changes on these novel materials. Significant differences from their bulk forms are found and the grounds of these variations are discussed. This thesis comprises of two parts. First part describes study of the electronic strucure, cation distribution and structural change of transition metal oxide ferrites Fe-M-O (M is transition metal Mn, Co, Ni) thin films. Second part illustrates the electronic and magnetic properties of superlattices of Fe3O4/MgO and Mn3O4/Fe3O4. In these studies, principally x-ray absorption spectroscopy (XAS) including the X-ray Absorption Near Edge Structure (XANES) and the X-ray magnetic circular dichroism (XMCD) techniques, the intense and continuously tunable x-rays produced at third generation synchrotron facilities (National Synchrotron Radiation Research Centre, Taiwan) were employed.