RECENT ADVANCEMENTS OF EMERGING NANOMATERIALS FOR ENERGY STORAGE APPLICATIONS

Abstract

The investigations of recent trends in developing nanomaterials designed primarily for use in energy storage. The study of nanomaterials remains increasingly important, with energy storage technologies playing a critical part in fulfilling the growing need for sustainable and environmentally friendly energy solutions. The special qualities of nanomaterials, such as their enhanced surface area, mechanical strength, and electrical conductivity, offer considerable potential for boosting the effectiveness of energy storage devices. It clarifies the many production procedures and structural features of a variety of nanomaterials, including those based on carbon, metal oxides, polymers, metal halide and sulphide, metal carbide and nitride (MXenes), and metal borides (MBenes). A study is also conducted of recent advancements in the engineering and design of nanomaterials for energy storage. The possibilities and challenges of the subject are also covered, emphasising the importance of environmental sustainability, cost effectiveness, and scalability. This extensive assessment is a helpful resource for researchers in academics and engineers in industries working to further the development of next-generation energy storage systems.