Monolithic digital patterning of polydimethylsiloxane with successive laser pyrolysis

The patterning of polydimethylsiloxane (PDMS) into complex two-dimensional (2D) or 3D shapes is a crucial step for diverse applications based on soft lithography. Nevertheless, mould replication that incorporates time-consuming and costly photolithography processes still remains the dominant technol...

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Veröffentlicht in:Nature materials 2021-01, Vol.20 (1), p.100-107
Hauptverfasser: Shin, Jaeho, Ko, Jihoon, Jeong, Seongmin, Won, Phillip, Lee, Younggeun, Kim, Jinmo, Hong, Sukjoon, Jeon, Noo Li, Ko, Seung Hwan
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Sprache:eng
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Zusammenfassung:The patterning of polydimethylsiloxane (PDMS) into complex two-dimensional (2D) or 3D shapes is a crucial step for diverse applications based on soft lithography. Nevertheless, mould replication that incorporates time-consuming and costly photolithography processes still remains the dominant technology in the field. Here we developed monolithic quasi-3D digital patterning of PDMS using laser pyrolysis. In contrast with conventional burning or laser ablation of transparent PDMS, which yields poor surface properties, our successive laser pyrolysis technique converts PDMS into easily removable silicon carbide via consecutive photothermal pyrolysis guided by a continuous-wave laser. We obtained high-quality 2D or 3D PDMS structures with complex patterning starting from a PDMS monolith in a remarkably low prototyping time (less than one hour). Moreover, we developed distinct microfluidic devices with elaborated channel architectures and a customizable organ-on-a-chip device using this approach, which showcases the potential of the successive laser pyrolysis technique for the fabrication of devices for several technological applications. A laser-based patterning method enables the fast fabrication of high-quality two- and three-dimensional features in polydimethylsiloxane for microfluidics and biomedical applications.
ISSN:1476-1122
1476-4660
DOI:10.1038/s41563-020-0769-6