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Enhanced Electrical Properties and Impact Strength of Phenolic Formaldehyde Resin Using Silanized Graphene and Ionic Liquid.

Yan-Chun LiSeul-Yi LeeHong WangFan-Long JinSoo-Jin Park
Published in: ACS omega (2023)
In this study, to improve the electrical properties and impact strength of phenolic formaldehyde (PF) resin, PF-based composites were prepared by mixing graphene and the ionic liquid 3-decyl-bis(1-vinyl-1 H -imidazole-3-ium-bromide) (C 10 [VImBr] 2 ) via hot blending and compression-curing processes. The graphene surface was modified using a silane coupling agent. The synergistic effect of graphene and C 10 [VImBr] 2 on the electrical properties, electromagnetic shielding efficiency, thermal stability, impact strength, and morphology of PF/graphene and PF/graphene/C 10 [VImBr] 2 composites was then investigated. It was found that the electrical conductivity of the composites significantly increased from 2.3 × 10 -10 to 4.14 × 10 -3 S/m with an increase in the graphene content from 0 to 15 wt %, increasing further to 0.145 S/m with the addition of 5 wt % C 10 [VImBr] 2 . The electromagnetic shielding efficiency of the composite increased from 4.70 to 28.64 dB with the addition of 15 wt % graphene, while the impact strength of the composites rose significantly from 0.59 to 1.13 kJ/m 2 with an increase in the graphene content from 0 to 15 wt %, reaching 1.53 kJ/m 2 with the addition of 5 wt % C 10 [VImBr] 2 . Scanning electron microscopy images of the PF/GNP/C 10 [VImBr] 2 composites revealed a rough morphology with numerous microcracks.
Keyphrases
  • room temperature
  • ionic liquid
  • carbon nanotubes
  • walled carbon nanotubes
  • reduced graphene oxide
  • electron microscopy
  • high resolution
  • cancer therapy
  • single molecule