Abstract
Nanomaterials have become essential in advancing energy storage and conversion technologies due to their remarkable physicochemical properties such as high surface area, tunable electronic structure, and superior catalytic efficiency. Their integration into batteries, supercapacitors, fuel cells, and solar cells has significantly enhanced energy density, charge transport, and conversion efficiency. Nanostructured materials like graphene, metal oxides, and perovskites offer innovative solutions for improving electrochemical stability, reducing energy losses, and enabling sustainable energy systems. Recent progress in synthesis and characterization techniques has further expanded their potential applications in renewable energy technologies. However, challenges such as scalability, material degradation, and environmental safety remain critical barriers to large-scale commercialization. This study explores the fundamentals, applications, and future prospects of nanomaterials in energy storage and conversion, emphasizing sustainable synthesis, hybrid structures, and integration with smart energy networks to achieve efficient and eco-friendly energy solutions for the future.
Key Words: Nanomaterials, Energy Storage, Energy Conversion, Lithium-Ion Batteries, Supercapacitors
Citation: Mishra P.K (2025) Current Maternal Awareness, Knowledge, and Practices on Cervical Cancer Prevention. Journal of Current Engineering and Allied Science. 8(3):1-7