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Tailoring nanocomposite interfaces with graphene to achieve high strength and toughness.

Ningning SongZan GaoXiaodong Li
Published in: Science advances (2020)
The nanofiller reinforcing effect in nanocomposites is often far below the theoretically predicted values, largely because of the poor interfacial interaction between the nanofillers and matrix. Here, we report that graphene-wrapped B4C nanowires (B4C-NWs@graphene) empowered exceptional dispersion of nanowires in matrix and superlative nanowire-matrix bonding. The 0.2 volume % B4C-NWs@graphene reinforced epoxy composite exhibited simultaneous enhancements in strength (144.2 MPa), elastic modulus (3.5 GPa), and ductility (15%). Tailoring the composite interfaces with graphene enabled effective utilization of the nanofillers, resulting in two times increase in load transfer efficiency. Molecular dynamics simulations unlocked the shear mixing graphene/nanowire self-assembly mechanism. This low-cost yet effective technique presents unprecedented opportunities for improving nanocomposite interfaces, enabling high load transfer efficiency, and opens up a new path for developing strong and tough nanocomposites.
Keyphrases
  • room temperature
  • carbon nanotubes
  • reduced graphene oxide
  • molecular dynamics simulations
  • ionic liquid
  • low cost
  • walled carbon nanotubes
  • gold nanoparticles
  • molecular docking
  • mass spectrometry