Despite the many attractive properties of conjugated polymers, their practical applications are often limited by the lack of a simple, scalable, and nondisruptive patterning method. Here, a direct, scalable, high-resolution patterning technique for conducting polymers is demonstrated that does not involve photoresists, masks, or postprocessing treatment. Complex, well-defined patterns down to sub-micrometer scales can be created from nanofibrous films of a wide variety of conducting polymers by photothermally welding the nanofibers using a low-energy infrared laser. The welding depth, structural robustness, and optical properties of the films are readily controlled. In addition, the electrical properties such as conductivity can be precisely tuned over a 7-order of magnitude range, while maintaining the characteristic tunable electronic properties in the nonwelded polyaniline regions. 2011 American Chemical Society.
Strong, V., Wang, Y., Patatanyan, A., Whitten, P. G., Spinks, G. M., Wallace, G. G. Kaner, R. B. (2011). Direct sub-micrometer patterning of nanostructured conducting polymer films via a low-energy infrared laser. Nano Letters, 11 (8), 3128-3135.