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Structural Design and Fabrication of Multifunctional Nanocarbon Materials for Extreme Environmental Applications.

Sijia WuHuajian LiDon N FutabaGuohai ChenChen ChenKechen ZhouQifan ZhangMiao LiZonglin YeMing Xu
Published in: Advanced materials (Deerfield Beach, Fla.) (2022)
Extreme environments represent numerous harsh environmental conditions, such as temperature, pressure, corrosion, and radiation. The tolerance of applications in extreme environments exemplifies significant challenges to both materials and their structures. Given the superior mechanical strength, electrical conductivity, thermal stability, and chemical stability of nanocarbon materials, such as carbon nanotubes (CNTs) and graphene, they are widely investigated as base materials for extreme environmental applications and have shown numerous breakthroughs in the fields of wide-temperature structural-material construction, low-temperature energy storage, underwater sensing, and electronics operated at high temperatures. Here, the critical aspects of structural design and fabrication of nanocarbon materials for extreme environments are reviewed, including a description of the underlying mechanism supporting the performance of nanocarbon materials against extreme environments, the principles of structural design of nanocarbon materials for the optimization of extreme environmental performances, and the fabrication processes developed for the realization of specific extreme environmental applications. Finally, perspectives on how CNTs and graphene can further contribute to the development of extreme environmental applications are presented.
Keyphrases
  • climate change
  • human health
  • carbon nanotubes
  • life cycle
  • drug delivery
  • mass spectrometry
  • room temperature
  • tissue engineering
  • atomic force microscopy