Science Advances

Supplementary Materials

This PDF file includes:

  • note S1. Experimental data processing.
  • note S2. Theoretical prediction.
  • note S3. Finite-element simulation.
  • note S4. Garment design principle.
  • note S5. Flap design based on heat map and sweat map.
  • fig. S1. Surface properties of natural latex sheets characterized by SEM.
  • fig. S2. Bioprinter working principle.
  • fig. S3. Customized humidity-controlled chamber.
  • fig. S4. Single cell at different RHs imaged by AFM.
  • fig. S5. Map of plasmid pET11a-eGFP-lacZ.
  • fig. S6. Confocal images of cell lysate containing eGFP.
  • fig. S7. Strain and stress of biohybrid film at different RHs.
  • fig. S8. Mechanical characterization of a bilayer hybrid film.
  • fig. S9. Assembly of a female running suit focused on the back ventilation through heat press.
  • fig. S10. Running suit pattern design–based heat and sweat maps.
  • fig. S11. Design of the running shoe with multifunctional fluorescent flaps.
  • fig. S12. Sample stability test under 100 dry-wet cycles.
  • table S1. Sequence of the synthetic gene used in this study.
  • Legends for movies S1 to S6

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Other Supplementary Material for this manuscript includes the following:

  • movie S1 (.avi format). Biohybrid bilayer film at different RHs.
  • movie S2 (.avi format). Single-cell volume change when decreasing RH imaged by dark-field microscopy.
  • movie S3 (.avi format). Fluorescence change of biohybrid film at different RHs.
  • movie S4 (.avi format). Simulation of bilayer biofilm bending.
  • movie S5 (.avi format). Simulation of sandwich-structured biofilm bending.
  • movie S6 (.avi format). Flaps opening for garment during exercise.

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