Microscale manipulation of bond exchange reactions in photocurable vitrimers with a covalently attachable photoacid generator

Roman Korotkov, Walter Alabiso, Alexander Jelinek, Max Schmallegger, Yang Li, Sandra Schlögl, Elisabeth Rossegger

Publikation: Beitrag in FachzeitschriftArtikelForschungBegutachtung

Abstract

Vitrimers are polymer networks with covalent bonds that undergo reversible exchange reactions and rearrange their topology in response to an external stimulus. The temperature-dependent change in viscoelastic properties is conveniently adjusted by selected catalysts. In these thermo-activated systems, the lack in spatial control can be overcome by using photolatent catalysts. Herein, we advance this concept to locally manipulate bond exchange reactions on a single digit microscale level. For this, we synthetize a linkable non-ionic photoacid generator, which is covalently attached to a thiol-click photopolymer. UV induced deprotection of the photoacid yields a strong immobilized sulfonic acid species, which is able to efficiently catalyze transesterification reactions. Covalent attachment of the formed acid prevents migration/leaching processes and enables a precise tuning of material properties. As proof of concept, positive toned microstructures with a resolution of 5 μm are inscribed in thin films using direct two-photon absorption laser writing and subsequent depolymerization. In addition, the possibility to locally reprogram bulk material properties is demonstrated by performing a post-modification reaction with ethylene glycol and carboxylic acids. The Young's modulus is varied between 3.3 MPa and 11.9 MPa giving rise to the versatility of the newly introduced catalysts for creating light processable and transformable materials.
OriginalspracheEnglisch
Seiten (von - bis)16271-16280
Seitenumfang10
FachzeitschriftChemical science
Jahrgang15.2024
Ausgabenummer39
DOIs
PublikationsstatusVeröffentlicht - 3 Sept. 2024

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