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Stretchable Electronics Based on Laser Structured, Vapor Phase Polymerized PEDOT/Tosylate.

Polymers (2020-07-30)
Zaid Aqrawe, Christian Boehler, Mahima Bansal, Simon J O'Carroll, Maria Asplund, Darren Svirskis
ZUSAMMENFASSUNG

The fabrication of stretchable conductive material through vapor phase polymerization of poly(3,4-ethylenedioxythiophene) (PEDOT) is presented alongside a method to easily pattern these materials with nanosecond laser structuring. The devices were constructed from sheets of vapor phase polymerized PEDOT doped with tosylate on pre-stretched elastomeric substrates followed by laser structuring to achieve the desired geometrical shape. Devices were characterized for electrical conductivity, morphology, and electrical integrity in response to externally applied strain. Fabricated PEDOT sheets displayed a conductivity of 53.1 ± 1.2 S cm-1; clear buckling in the PEDOT microstructure was observed as a result of pre-stretching the underlying elastomeric substrate; and the final stretchable electronic devices were able to remain electrically conductive with up to 100% of externally applied strain. The described polymerization and fabrication steps achieve highly processable and patternable functional conductive polymer films, which are suitable for stretchable electronics due to their ability to withstand externally applied strains of up to 100%.

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Sigma-Aldrich
2,3-Dihydrothieno[3,4-b]-1,4-dioxin, 97%