3D Printing of a Graphene-Modified Photopolymer Using Stereolithography for Biomedical Applications: A Study of the Polymerization Reaction

Additive manufacturing is gaining importance thanks to its multiple advantages. Stereolithography (SLA) shows the highest accuracy and the lowest anisotropy, which has facilitated the emergence of new applications as dentistry or tissue engineering. However, the availability of commercial photopolym...

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Bibliographic Details
Published inInternational journal of bioprinting Vol. 8; no. 1; p. 503
Main Authors de Armentia, S Lopez, Fernández-Villamarín, S, Ballesteros, Y, Del Real, J C, Dunne, N, Paz, E
Format Journal Article
LanguageEnglish
Published Singapore AccScience Publishing 01.01.2022
Whioce Publishing Pte. Ltd
Subjects
Acrylic resins
Anisotropy
Biological activity
Biomedical materials
Dentistry
Graphene
Lithography
Manufacturing
Mechanical properties
Nanomaterials
Nanotechnology
Photopolymers
Polymerization
Resins
Three dimensional printing
Tissue engineering
Photocurable polymer
Graphene-based nanomaterials
Stereolithography
Nanocomposites
Printing accuracy
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Summary:Additive manufacturing is gaining importance thanks to its multiple advantages. Stereolithography (SLA) shows the highest accuracy and the lowest anisotropy, which has facilitated the emergence of new applications as dentistry or tissue engineering. However, the availability of commercial photopolymers is still limited, and there is an increasing interest in developing resins with properties adapted for these new applications. The addition of graphene-based nanomaterials (GBN) may provide interesting advantages, such as improved mechanical properties and bioactivity. However, there is a lack of knowledge regarding the effect of GBNs on the polymerization reaction. A photopolymerizable acrylic resin has been used, and the effect of the addition of 0.1wt% of graphene (G); graphene oxide (GO) and graphite nanoplatelets (GoxNP) on printability and polymerization have been investigated. It was observed that the effect depended on GBN type, functionalization and structure (e.g., number of layers, size, and morphology) due to differences in the extent of dispersion and light absorbance. The obtained results showed that GO and GoxNP did not significantly affect the printability and quality of the final structure, whilst the application of G exhibited a negative effect in terms of printability due to a reduction in the polymerization degree. GO and GoxNP-loaded resins showed a great potential to be used for manufacturing structures by SLA.
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ISSN:2424-7723
2424-8002
DOI:10.18063/IJB.V8I1.503