ABSTRACT
This chapter focuses on the possible improvement in renewable energy utilization through nanographene inclusion or involvement. With these advancements, the present-day research is focused on the NG formation over the insulated substrate in order to simplify the transfer process for graphene device fabrication. Recently, among the rigorously studied carbon materials, CNTs, activated carbons, nanohorns, and nanographenes have attracted significant interest for energy storage applications, manifested by high pore volume, SA, low density, and tunable pore morphology. A high specific SA, chemical inertness, optical transmittance, restoring ability, porous texture, biological compatibility, and tunable band gap are some eye-catching features of graphene materials chemistry. Henceforth, the advances in graphene-based LIB research are discussed with an emphasis on major modifications and improvements. Today energy crisis is an alarming issue; the world is facing, in lieu of ever-increasing energy demand, depletion of conventional energy resources.
