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Direct sub-micrometer patterning of nanostructured conducting polymer films via a low-energy infrared laser

journal contribution
posted on 2024-11-16, 08:08 authored by Veronica Strong, Yue Wang, Ani Patatanyan, Philip Whitten, Geoffrey SpinksGeoffrey Spinks, Gordon WallaceGordon Wallace, Richard B Kaner
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.

Funding

Nanobionics

Australian Research Council

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Citation

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.

Journal title

Nano Letters

Volume

11

Issue

8

Pagination

3128-3135

Language

English

RIS ID

38792

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