Science Advances

Supplementary Materials

The PDFset includes:

  • Fig. S1. The schematic layout of the printed supercapacitor.
  • Fig. S2. Effect of PVP additive on electrode inks.
  • Fig. S3. Effect of PVP additive on electrical conductivity of the resulting electrodes (without PVP additive versus with PVP additive).
  • Fig. S4. Viscosity of the electrode inks (solid content, 1.9 and 18.0 wt %) as a function of shear rate.
  • Fig. S5. Effect of solid content on electrode fabrication through DIW process.
  • Fig. S6. LSV profiles of the solid-state polymer electrolyte (scan rate, 1.0 mV/s).
  • Fig. S7. Weight retention and ionic conductivity of the solid-state polymer electrolyte at 150°C as a function of time.
  • Fig. S8. Weight retention and ionic conductivity of the solid-state polymer electrolyte in a vacuum as a function of time.
  • Fig. S9. Optical and electrical characteristics of AgNF-AgNW hybrid films.
  • Fig. S10. Design and properties of the antenna for WPT.
  • Fig. S11. Rectifier circuit based on Si PIN diodes and SiO2-based capacitor.
  • Fig. S12. Biaxially stretching tests of AgNF-AgNW hybrid films.
  • Fig. S13. Fabrication of a fully integrated soft, smart contact lens system.
  • Fig. S14. SAR simulation results.
  • Legends for movies S1 to S4

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Other Supplementary Material for this manuscript includes the following:

  • Movie S1 (.avi format). Video clip showing the DIW-based dispensing procedure of the electrode ink on the smart contact lens substrate.
  • Movie S2 (.avi format). Video clip showing the DIW-based dispensing procedure of the electrolyte ink on top of the previously fabricated electrodes.
  • Movie S3 (.avi format). Video clip showing wireless the charging and discharging operation on the mannequin eye.
  • Movie S4 (.avi format). Video clip showing the heat generation test in the wearing of the soft, smart contact lens on the human eye.

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