Customizable-Width Conducting Polymer Micro/Nanoarrays by Subpicosecond Laser Interference Patterning

MULKO, LUCINDA; HEFFNER, HERMAN; BONGIOVANNI ABEL, SILVESTRE; BAUMANN, ROBERT; MARTÍN, DOLORES; SCHELL, FREDERIC; LASAGNI, ANDRES FABIAN

ACS Applied Polymer Materials

American Chemical Society

Año: 2022 vol. 4 p. 8715 - 8721

Direct laser interference patterning (DLIP) employing sub-picosecond IR irradiation allows for the ultrafast processing of polyaniline surfaces polymerized onto a poly(methyl methacrylate) substrate (PANI@PMMA) achieving excellent quality features. The patterning shows high levels of precision regarding control of width and height in micro/nanoarrays, giving customization to the surfaces. The electroactive property evaluation suggests the conductivity presents anisotropic characteristics following the patterning of the polymeric surfaces (RSL = 54 ± 5 Ohm sq-1 and RST = 1.7 ± 3 Ohm sq-1, longitudinal and transversal resistance modes respectively). The evidence is supported by electrostatic force microscopy measurements. These results indicate potential applicability in the biomedical field of nerve and myocardial tissue regeneration.