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Cellulose

Erschienen in:

23.08.2018 | Original Paper

Enabling direct laser writing of cellulose-based submicron architectures

verfasst von: Maximilian Rothammer, Marie-Christin Heep, Georg von Freymann, Cordt Zollfrank

Erschienen in: Cellulose | Ausgabe 10/2018

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Abstract

We report on the first and versatile cellulose-based photoresist, which can be applied in direct laser writing and allows the fabrication of structures with a resolution of less than 1 μm and a feature size of less than 500 nm via two-photon absorption. Therefore, cellulose diacetate is functionalised with methacrylic acid anhydride to introduce photo-crosslinkable side groups into the cellulose chain. The photoresist consists of the methacrylated cellulose diacetate and a photoinitiator both dissolved in acetone. The cellulose-based photoresist can be applied to generate two- and three-dimensional hierarchical structures and clears the way to the design and fabrication of biomimetic architectures solely made from biopolymers.

Graphical abstract

A photo-crosslinkable cellulose-based resist, which can be applied in direct laser writing (DLW), was synthesised. It enables the generation of two- and three-dimensional hierarchical structures with a feature size of less than 500 nm via two-photon absorption. This new photoresist paves the way towards designing and fabricating biomimetic architectures solely made from biopolymers.

Vorheriger Artikel Bacterial cellulose nanofiber-based films incorporating gelatin hydrolysate from tilapia skin: production, characterization and cytotoxicity assessment

Nächster Artikel Multi-functional regenerated cellulose fibers decorated with plasmonic Au nanoparticles for colorimetry and SERS assays

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Titel: Enabling direct laser writing of cellulose-based submicron architectures
verfasst von: Maximilian Rothammer
Marie-Christin Heep
Georg von Freymann
Cordt Zollfrank
Publikationsdatum: 23.08.2018
Verlag: Springer Netherlands
Erschienen in: Cellulose / Ausgabe 10/2018
Print ISSN: 0969-0239
Elektronische ISSN: 1572-882X
DOI: https://doi.org/10.1007/s10570-018-2002-1

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