Highly efficient carbon dot-based photoinitiating systems for 3D-VAT printing
Published: 2 April 2024| Version 1 | DOI: 10.17632/35wc3t3kz9.1
Contributors:
, , Alexander J. Knight, Alexander I. Tartakovskii, Nicholas T. H. Farr, Wiktor Kasprzyk, Joanna OrtylDescription
In this work, different types of carbon dots (CDs) based on citric acid as a precursor were synthesized using an efficient procedure to purify these materials from low molecular by-products and fluorophores. Their structural and optical characteristics were elaborated and compared to commercially available graphene quantum dots. The mechanism of their action in photopolymerization processes was evaluated. Obtained materials proved to perform well in the development of effective photoinitiating systems for 3D printing applications. The morphology and chemical composition of obtained hydrogel printouts were profoundly characterized via SEM, AFM, Nano-FTIR, and s-SNOM.
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Institutions
Politechnika Krakowska im Tadeusza Kosciuszki, The University of Sheffield
Categories
Chemical Engineering, VAT Photopolymerization, Carbon Quantum Dot
Funding
National Science Center
2021/41/B/ST5/04533