Exploring the Uncharted Territory: Future Generation Materials for Sustainable Energy Storage

Abstract

This study explores the domain of developing material categories for the purpose of sustainable energy storage, with the objective of addressing the constraints inherent in existing technologies and facilitating the development of inventive resolutions. The research examines the potential of nanomaterials, metal-organic frameworks (MOFs), polymers, and two-dimensional (2D) materials as a means to overcome the obstacles presented by current energy storage systems. This study investigates the qualities and potential of various materials, examining them in conjunction with a range of thorough characterization techniques. These approaches include electrochemical analysis, structural methodologies, nanoscale observations, and computer modelling. In the next analysis, this study will examine the future direction of research on energy storage materials, including prospective advancements and the critical obstacles related to scalability, cost-efficiency, and integration within energy systems. In general, this investigation highlights the significant impact of new materials on the development of a more environmentally friendly energy infrastructure. The present study focuses on the investigation of emerging materials for sustainable energy storage. Specifically, the research explores the potential of nanomaterials, metal-organic frameworks, polymers, and two-dimensional materials in this context. By examining the properties and characteristics of these materials, this study aims to contribute to the understanding and development of efficient and environmentally friendly energy storage solutions.