Structural and dielectric properties of monodisperse TiO$_{2}$-paraffin core-shell nanoparticles

Core-shell nanoparticles made of oxides having high dielectric constant and organic materials with large breakdown field are attractive candidates for higher-energy-density capacitors. In the present study, monodispersed TiO$_{2 }$nanoparticles were produced using a cluster-deposition method and subsequently coated with uniform paraffin nanoshells using an \textit{in-situ} thermal evaporation to form core-shell structure. The thickness of the paraffin nanoshells was varied by controlling the evaporation temperature of paraffin. The dielectric properties of TiO$_{2}$-paraffin core-shell nanoparticles show an enhanced effective dielectric constant with a decrease in the thickness of the nanoshells and also, reveal a minimum dielectric dispersion and low dielectric losses in the frequency range of 100 Hz -- 1MHz, which are highly desirable for potential device applications.