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Programmable Liquid Crystal Defect Arrays via Electric Field Modulation for Mechanically Functional Liquid Crystal Networks.

Ra YouSumin KangChangjae LeeJisoo JeonJeong Jae WieTaek-Soo KimDong Ki Yoon
Published in: ACS applied materials & interfaces (2021)
The arrangement of mesogenic units determines mechanical response of the liquid crystal polymer network (LCN) film to heat. Here, we show an interesting approach to programming three-dimensional patterns of the LCN films with periodic topological defects generated by applying an electric field. The mechanical properties of three representative patterned LCN films were investigated in terms of the arrangement of mesogenic units through tensile testing. Remarkably, it was determined that LCN films showed enhanced toughness and ductility as defects increased in a given area, which is related to the elastic modulus mismatch that mitigates crack propagation. Our platform can also be used to modulate the frictional force of the patterned LCN films by varying the temperature, which can provide insight into the multiplex mechanical properties of LCN films.
Keyphrases
  • room temperature
  • carbon nanotubes
  • high throughput
  • ionic liquid
  • cross sectional
  • single molecule
  • heat stress
  • high speed