12 - Perovskite-type dielectric ceramic-based polymer composites for energy storage applications

Abstract

In the present scenario, ceramic–polymer composites have significant attraction in the field of high-performance energy storage device (HPESD) applications due to the high breakdown strength and good flexibility of polymer and high dielectric and ferroelectric properties of ceramics. Bismuth ferrite (BiFeO3; BFO) is one of the most talented multiferroic ceramic materials having both ferroelectric and magnetic properties coexisting at room temperature. As it is a magnetoelectric ceramic material, it has various advantages over other ceramics in the field of electronic applications. Moreover, the surface functionalization of ceramics is another fruitful pathway for improving the microstructure, particle size distribution, morphology, degree of aggregation, packing, and dispersion of ceramics in the polymer matrix. Similarly, the addition of third-phase materials such as surfactants, conducting polymer, and semiconductive fillers to the ceramic–polymer composites would significantly improve their overall dielectric, ferroelectric, optical, and electrical conductivities and could be more advantageous for profound electronic device applications.