GRAPHENE COATED POLYMER ELECTRODES FOR ENERGY STORAGE APPLICATIONS-AN EXPERIMENTAL APPROACH

Abstract

The graphene/polymer composites have many desirable qualities. In addition to adsorption, antimicrobial, hydrophobic, electrical, and thermal conductivities were found. As electronic devices become more integrated and miniaturized, the growing demand for effective thermal management has driven increased interest in these composite materials. Two significant potential discoveries have further boosted research in this area. researchers have now developed methods for producing graphene on a large scale, as well as creating flexible graphene electrodes. These breakthroughs open the door to manufacturing larger graphene-based items and allow for greater design flexibility by leveraging graphene's unique properties The main focus of this paper is on the different methods used to create graphene as a flexible electrode. Although it mainly covers various production methods, it also briefly mentions large-scale production. Researchers have been exploring the potential of graphene-coated polymer electrodes to enhance energy storage capabilities. The objective of this experimental strategy is to enhance the functionality and longevity of electrodes made of polymers by utilising graphene's exceptional electrical conductivity and mechanical strength.