Ferrite-polymer composites: A novel approach to high-performance energy storage materials
Jyothi A. Goudar, Tam T. N., Sharanappa Chapi, M. V. Murugendrappa, Gangadhar Babaladimath, Anjanapura V. Raghu
Abstract
The integration of ferrites with polymers presents a promising approach to enhance energy storage capacity. Ferrites exhibit exceptional capacity, stability, and efficiency, attributed to their outstanding magnetic and dielectric properties. On the other side, polymers contribute mechanical stability, processability, and flexibility, rendering them essential components in energy storage systems. The combination of these materials resulted in a composite with enhanced performance characteristics. The composites exhibit optimal charge transport mechanisms and interface phenomena, making them highly suitable for hybrid devices, batteries, and supercapacitors. The newly uncovered characteristics of polymer-ferrite composites indicate significant potential for advancing energy storage technologies. Therefore, investigating these materials is essential to develop a more sustainable and efficient system. Further exploration of polymer-ferrite interactions is necessary to optimize their properties, ultimately contributing to the development of next-generation energy storage with improved reliability, performance, and environmental compatibility. • Ferrite-polymer integration boosts energy storage capabilities. • Ferrites and polymers combine to provide synergistic properties. • Conducting polymers-ferrites as energy storage systems. • These hybrids enables the efficient and sustainable energy systems. • Optimizing the hybrid interactions is crucial for advancing next-generation.