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Glycerol-based sustainably sourced resin for volumetric printing

Krumins, Eduards; Lentz, Joachim C.; Sutcliffe, Ben; Sohaib, Ali; Jacob, Philippa L.; Brugnoli, Benedetta; Cuzzucoli Crucitti, Valentina; Cavanagh, Robert; Owen, Robert; Moloney, Cara; Ruiz-Cantu, Laura; Francolini, Iolanda; Howdle, Steven M.; Shusteff, Maxim; Rose, Felicity R. A. J.; Wildman, Ricky D.; He, Yinfeng; Taresco, Vincenzo

Glycerol-based sustainably sourced resin for volumetric printing Thumbnail


Authors

EDUARDS KRUMINS Eduards.Krumins2@nottingham.ac.uk
Research Fellow in Integratingartificial Intelligence with Additivemanufacturing For The Manufacture

Joachim C. Lentz

Ben Sutcliffe

Ali Sohaib

Philippa L. Jacob

Benedetta Brugnoli

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Dr ROBERT OWEN Robert.Owen@nottingham.ac.uk
Nottingham Research Fellow Fellowship

Laura Ruiz-Cantu

Iolanda Francolini

Maxim Shusteff

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FELICITY ROSE FELICITY.ROSE@NOTTINGHAM.AC.UK
Professor of Biomaterials and Tissue Engineering

RICKY WILDMAN RICKY.WILDMAN@NOTTINGHAM.AC.UK
Professor of Multiphase Flow and Mechanics

YINFENG HE Yinfeng.He@nottingham.ac.uk
Transitional Assistant Professor



Abstract

Volumetric Additive Manufacturing (VAM) represents a revolutionary advancement in the field of Additive Manufacturing, as it allows for the creation of objects in a single, cohesive process, rather than in a layer-by-layer approach. This innovative technique offers unparalleled design freedom and significantly reduces printing times. A current limitation of VAM is the availability of suitable resins with the required photoreactive chemistry and from sustainable sources. To support the application of this technology, we have developed a sustainable resin based on polyglycerol, a bioderived (e.g., vegetable origin), colourless, and easily functionisable oligomer produced from glycerol. To transform polyglycerol-6 into an acrylate photo-printable resin we adopted a simple, one-step, and scalable synthesis route. Polyglycerol-6-acrylate fulfils all the necessary criteria for volumetric printing (transparency, photo-reactivity, viscosity) and was successfully used to print a variety of models with intricate geometries and good resolution. The waste resin was found to be reusable with minimal performance issues, improving resin utilisation and minimising waste material. Furthermore, by incorporating dopants such as poly(glycerol) adipate acrylate (PGA-A) and 10,12-pentacosadyinoic acid (PCDA), we demonstrated the ability to print objects with a diverse range of functionalities, including temperature sensing probes and a polyester excipient, highlighting the potential applications of these new resins.

Journal Article Type Article
Acceptance Date Jan 2, 2024
Online Publication Date Jan 3, 2024
Publication Date Feb 7, 2024
Deposit Date Jan 16, 2024
Publicly Available Date Jan 17, 2024
Journal Green Chemistry
Print ISSN 1463-9262
Electronic ISSN 1463-9270
Publisher Royal Society of Chemistry
Peer Reviewed Peer Reviewed
Volume 26
Issue 3
Pages 1345-1355
DOI https://doi.org/10.1039/d3gc03607c
Keywords Pollution, Environmental Chemistry
Public URL https://nottingham-repository.worktribe.com/output/29556998
Publisher URL https://pubs.rsc.org/en/content/articlelanding/2024/gc/d3gc03607c

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