This chapter discusses recent advances in bioinspired graphene-based nanocomposites for flexible energy device applications. While graphene exhibits exceptional mechanical strength, stiffness, and electrical conductivity, the scalable assembly of graphene nanosheets into macro-sized, high-performance nanocomposites remains a significant challenge. Drawing inspiration from nacre, a benchmark natural layered material, various bioinspired assembly strategies are discussed for achieving simultaneously high strength, toughness, and electrical conductivity through synergistic structural and interfacial effects. The fundamental mechanical and electrical properties of graphene-based nanocomposites are highlighted, along with their emerging roles in flexible energy storage and harvesting devices.

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Bio-Inspired Engineering of Graphene Nanocomposites for High-Performance Energy Applications

  • Mohammad Yaseen Mir,
  • Javid A. Parray

摘要

This chapter discusses recent advances in bioinspired graphene-based nanocomposites for flexible energy device applications. While graphene exhibits exceptional mechanical strength, stiffness, and electrical conductivity, the scalable assembly of graphene nanosheets into macro-sized, high-performance nanocomposites remains a significant challenge. Drawing inspiration from nacre, a benchmark natural layered material, various bioinspired assembly strategies are discussed for achieving simultaneously high strength, toughness, and electrical conductivity through synergistic structural and interfacial effects. The fundamental mechanical and electrical properties of graphene-based nanocomposites are highlighted, along with their emerging roles in flexible energy storage and harvesting devices.