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Mass Production of Biocompatible Graphene Using Silk Nanofibers.

Xiaoyi ZhangLing WangQiang LuDavid Lee Kaplan
Published in: ACS applied materials & interfaces (2018)
Mass production of high-quality graphene dispersions under mild conditions impacts the utility of the material for biomedical applications. Various proteins have been used to prepare graphene dispersions, rare sources, and expensive prices for these proteins restrict their large-scale utility for the production of graphene. Here, inexpensive silk proteins as an abundant resource in nature were used for graphene exfoliation. The silk proteins were assembled into hydrophobic nanofibers with negative charge, and then optimized for the production of graphene. Significantly higher concentrations (>8 mg mL-1) and yields (>30%) of graphene dispersions under ambient aqueous conditions were achieved compared with previous protein-assisted exfoliation systems. The exfoliated graphene exhibited excellent stability in water and fetal bovine serum solution, cytocompatibility, and conductivity, suggesting a promising future in biomedical and bioengineering applications.
Keyphrases
  • room temperature
  • carbon nanotubes
  • walled carbon nanotubes
  • ionic liquid
  • air pollution
  • drinking water
  • binding protein
  • drug release