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Area of Science:

  • Materials Science
  • Nanotechnology
  • Composite Materials

Background:

  • Carbon nanotube (CNT) and graphene nanocomposites are advanced multifunctional materials.
  • They exhibit exceptional mechanical, thermal, and electrical properties.
  • Recent innovations address filler agglomeration and improve matrix compatibility.

Purpose of the Study:

  • To critically review next-generation high-performance graphene and CNT-based nanocomposites.
  • To analyze advancements in synthesis, dispersion, and interfacial engineering.
  • To discuss challenges and future directions in the field.

Main Methods:

  • Comparative analysis of polymer, metal, and ceramic matrices.
  • Review of novel fabrication processes like additive manufacturing and functionally graded architectures.
  • Evaluation of improved wear durability, corrosion resistance, and super-hydrophobicity.

Main Results:

  • Overcoming agglomeration limitations through improved filler distribution and load transfer.
  • Enhanced material properties including wear resistance and super-hydrophobicity.
  • Broad applicability in biomedical, construction, energy, defense, and aeronautics sectors.

Conclusions:

  • Graphene and CNT nanocomposites are crucial for next-generation high-performance materials.
  • Continued research in scalability, life-cycle assessment, and sustainable processing is essential.
  • Future work should focus on overcoming remaining obstacles for wider industrial adoption.