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Professor CHRISTOPHER TUCK's Outputs (6)

Ink-jet 3D printing as a strategy for developing bespoke non-eluting biofilm resistant medical devices (2021)
Journal Article
He, Y., Luckett, J., Begines, B., Dubern, J. F., Hook, A. L., Prina, E., Rose, F. R., Tuck, C. J., Hague, R. J., Irvine, D. J., Williams, P., Alexander, M. R., & Wildman, R. D. (2022). Ink-jet 3D printing as a strategy for developing bespoke non-eluting biofilm resistant medical devices. Biomaterials, 281, Article 121350. https://doi.org/10.1016/j.biomaterials.2021.121350

Chronic infection as a result of bacterial biofilm formation on implanted medical devices is a major global healthcare problem requiring new biocompatible, biofilm-resistant materials. Here we demonstrate how bespoke devices can be manufactured throu... Read More about Ink-jet 3D printing as a strategy for developing bespoke non-eluting biofilm resistant medical devices.

The influence of printing parameters on multi-material two-photon polymerisation based micro additive manufacturing (2021)
Journal Article
Hu, Q., Rance, G. A., Trindade, G. F., Pervan, D., Jiang, L., Foerster, A., Turyanska, L., Tuck, C., Irvine, D. J., Hague, R., & Wildman, R. D. (2022). The influence of printing parameters on multi-material two-photon polymerisation based micro additive manufacturing. Additive Manufacturing, 51, Article 102575. https://doi.org/10.1016/j.addma.2021.102575

Two-photon polymerisation (2PP) based additive manufacturing has emerged as a powerful technology to fabricate complex three-dimensional micro- and nanoscale architectures. However, a comprehensive understanding of the effect of printing parameters o... Read More about The influence of printing parameters on multi-material two-photon polymerisation based micro additive manufacturing.

Five simple tools for stochastic lattice creation (2021)
Journal Article
Groth, J. H., Anderson, C., Magnini, M., Tuck, C., & Clare, A. (2022). Five simple tools for stochastic lattice creation. Additive Manufacturing, 49, Article 102488. https://doi.org/10.1016/j.addma.2021.102488

Lattices are increasingly used in engineering applications. They can reduce weight in aircraft components, increase the efficiency of heat exchangers and are used as medical implants. Typically a regular and graded lattice, where the unit cells are i... Read More about Five simple tools for stochastic lattice creation.

Bespoke 3D-Printed Polydrug Implants Created via Microstructural Control of Oligomers (2021)
Journal Article
Ruiz-Cantu, L., Trindade, G. F., Taresco, V., Zhou, Z., He, Y., Burroughs, L., Clark, E. A., Rose, F. R., Tuck, C., Hague, R., Roberts, C. J., Alexander, M., Irvine, D. J., & Wildman, R. D. (2021). Bespoke 3D-Printed Polydrug Implants Created via Microstructural Control of Oligomers. ACS Applied Materials and Interfaces, 13(33), 38969-38978. https://doi.org/10.1021/acsami.1c07850

Controlling the microstructure of materials by means of phase separation is a versatile tool for optimizing material properties. Phase separation has been exploited to fabricate intricate microstructures in many fields including cell biology, tissue... Read More about Bespoke 3D-Printed Polydrug Implants Created via Microstructural Control of Oligomers.

Residual polymer stabiliser causes anisotropic electrical conductivity during inkjet printing of metal nanoparticles (2021)
Journal Article
Trindade, G. F., Wang, F., Im, J., He, Y., Balogh, A., Scurr, D., Gilmore, I., Tiddia, M., Saleh, E., Pervan, D., Turyanska, L., Tuck, C. J., Wildman, R., Hague, R., & Roberts, C. J. (2021). Residual polymer stabiliser causes anisotropic electrical conductivity during inkjet printing of metal nanoparticles. Communications Materials, 2(1), Article 47. https://doi.org/10.1038/s43246-021-00151-0

Inkjet printing of metal nanoparticles allows for design flexibility, rapid processing and enables the 3D printing of functional electronic devices through co-deposition of multiple materials. However, the performance of printed devices, especially t... Read More about Residual polymer stabiliser causes anisotropic electrical conductivity during inkjet printing of metal nanoparticles.

UV-curable silicone materials with tuneable mechanical properties for 3D printing (2021)
Journal Article
Foerster, A., Annarasa, V., Terry, A., Wildman, R., Hague, R., Irvine, D., De Focatiis, D. S., & Tuck, C. (2021). UV-curable silicone materials with tuneable mechanical properties for 3D printing. Materials and Design, 205, Article 109681. https://doi.org/10.1016/j.matdes.2021.109681

In this paper, we present the development of a family of novel, UV-curable, highly flexible, 3D printable silicone-based materials, the mechanical properties of which can be tuned simply by varying the ratio of the polymerisable reagents within the f... Read More about UV-curable silicone materials with tuneable mechanical properties for 3D printing.