Energy storage systems are vital in meeting present-day energy needs and facilitating the successful incorporation of renewable energy sources. It outlines the limitations of traditional materials used in batteries and capacitors, such as low energy density and poor stability, which hinder their efficiency. The chapter emphasises how nanotechnology offers advanced solutions by enhancing charge transport, surface area and structural integrity. It explores key nanomaterials like graphene, CNTs, MXenes, MOFs and COFs, showcasing their application through case studies. It delves into hybrid materials and creative structures that combine the benefits of different components, resulting in the creation of effective and environmentally friendly energy storage solutions.

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Nanomaterials and Composite/Hybrids in Energy Storage Systems

  • Jincemon Cyriac,
  • V. N. Sheeja,
  • Anjali Panarakottil Vijayan,
  • Mathew Chethipuzha,
  • Amala Rose Augustine,
  • Jisty Ann Jiji,
  • Ann Rose Abraham

摘要

Energy storage systems are vital in meeting present-day energy needs and facilitating the successful incorporation of renewable energy sources. It outlines the limitations of traditional materials used in batteries and capacitors, such as low energy density and poor stability, which hinder their efficiency. The chapter emphasises how nanotechnology offers advanced solutions by enhancing charge transport, surface area and structural integrity. It explores key nanomaterials like graphene, CNTs, MXenes, MOFs and COFs, showcasing their application through case studies. It delves into hybrid materials and creative structures that combine the benefits of different components, resulting in the creation of effective and environmentally friendly energy storage solutions.