Science Advances

Supplementary Materials

This PDF file includes:

  • Supplementary Materials and Methods
  • fig. S1. Fabrication processing steps of the hybrid substrate.
  • fig. S2. AFM data analysis.
  • fig. S3. Optical transmittance (black) and haze (red) spectra of the silicone elastomeric film.
  • fig. S4. The variation of optical properties against mechanical stretching of the hybrid substrate (from 0 to 30% in tensile strain).
  • fig. S5. Original image for the photograph test to identify the clarity of hybrid substrate.
  • fig. S6. Wireless display circuit composed of an antenna, a rectifier, and an LED pixel.
  • fig. S7. Fabrication procedures of wireless display on the hybrid substrate.
  • fig. S8. Characteristics of the stretchable, transparent AgNF electrode as antenna.
  • fig. S9. Characteristics of the Si diode and SiO2 capacitor.
  • fig. S10. Sequential schematic images to transform to the lens shape.
  • fig. S11. Mechanism of glucose sensing on graphene channel.
  • fig. S12. The magnified real-time sensing result (at the first detection of glucose level) to verify the response time.
  • fig. S13. Stability of the smart contact lens system.
  • fig. S14. The relationship between the glucose concentration and luminance of the LED.
  • fig. S15. SAR simulation result.
  • table S1. Comparison with other noninvasive glucose monitoring technologies.
  • Legends for movies S1 to S4
  • References (43–45)

Download PDF

Other Supplementary Material for this manuscript includes the following:

  • movie S1 (.mp4 format). Embedding procedure of the hybrid substrate in the contact lens.
  • movie S2 (.mp4 format). Wireless operation of wireless display with lens shape.
  • movie S3 (.mp4 format). In vivo test of soft, smart contact lens for wireless operation.
  • movie S4 (.mp4 format). In vivo test of soft, smart contact lens for heat generation test.

Files in this Data Supplement: