Novel Materials for High-Performance Energy Storage Devices

¹ Tashkent State Pedagogical University, Uzbekistan. E-mail:, Tashkent
² Department of Liberal Arts School of Liberal Arts, Uttaranchal University, Dehradun-248007, India
³ Department of ECE, Srisairam Institute of Technology
⁴ College of technical engineering, The Islamic university, Najaf, Iraq .
⁵ Department of ECE, Prince Shri Venkateshwara Padmavathy Engineering College, Chennai - 127 .
⁶ AssociateProfessor, Dr. D. Y. Patil Institute of Technology, Pimpri, amit.chaudhary@dypvp.edu.in

^* alimbaevaozoda4@gmail.com
^** abhishekjoshi.uu@gmail.com
^*** saritha.ganesan@gmail.com
^**** laith.h.alzubaidi@gmail.com
^***** senthamilselvan_ece@psvpec.in

Abstract

The realm of energy storage devices is witnessing a paradigm shift, driven by the exploration of novel materials. This review delves into the transformative potential of unconventional materials in enhancing the performance and versatility of energy storage systems. We discuss the potential of a hierarchical carbon material derived from E. coli cells, graphene oxide, and iron ion, underscoring its green credentials and promising attributes. Further, we highlight the transformative impact of paper as a material platform, tracing its evolution from a historical medium to a contemporary game-changer in microfluidic devices and microelectronics. The integration of electronics on paper reveals the potential of paper-based devices in diagnostics, MEMS, and energy storage. Collectively, these innovations illuminate the vast potential of avant-garde materials in revolutionising energy storage solutions, bridging the gap between cost-effectiveness and high performance. This review aims to provide a comprehensive overview of these groundbreaking innovations, fostering a deeper understanding of the future trajectory of energy storage research.