One-dimensional nanocomposites for renewable energies

Abstract

The seasonal, intermittent, and localized characteristics of renewable energy necessitate the design of efficient energy storage systems that can maximum its utilization. Electrochemical energy devices, such as batteries and supercapacitors, are gaining significant interest because of their diverse applications, that includes electronic devices, electric motors, and energy storage systems. The electrode material significantly influences the electrochemical performance of these devices, which includes superior safety, high energy/power density, and high capacity and stable cyclic performance. A considerable amount of research has been done to develop novel electrode materials with nanostructures that provide the necessary features for efficient electrochemical energy storage devices. These characteristics are large surface area, reduced ion diffusion and easy access to the electrolyte. This chapter explored the development of an one-dimensional nanocomposite as electrode for energy storage devices. © 2025 Elsevier Inc. All rights reserved.