Stanford
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Docket #: S15-248

Highly Conductive, Stretchable Polymer

Stanford researchers have developed a highly conductive, stretchable polymer that is durable enough for wearable electronics. To improve flexibility they doped poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS)with ionic liquid plasticizer. The plasticizer provides a fiber-like morphology, improves connectivity and conductively via the doping anions. The transparent doped PEDOT:PSS is stretchable to twice its initial length, and maintains conductivity on the order of 102 to 103 S/cm. The water based dispersion can be directly printed onto substrates, making it an excellent electrode or interconnect for wearable electronic devices.


Figure 1 Photographs illustrating the minimal change in LED brightness as the device is stretched under twisting and poked with a sharp object, respectively.

Stage of Research
Researchers continue to test different ionic liquids and processing methods to optimize properties.

Applications

  • Stretchable conductor for:
    • Wearable electronics / biomedical device electrodes and interconnects
    • Strain or pressure sensors
    • Stretchable battery electrodes

Advantages

  • High conductivity - 3100 S/cm increases to > 4100 S/cm under strain due to chain alignment
  • Excellent durability - conductivity maintained after 1000 cycles at 100% strain with fracture strain > 800%
  • Low temperature sensitivity, making it an excellent interconnect
  • Easy integration – directly printed and patterned onto substrates, compatible with organic semiconductor components
  • Easy fabrication -commercially available, well characterized

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