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Outputs (15)

Photonic Annealing of Inkjet Printed Graphene for Stretchable Wearable Healthcare Monitoring Devices (2025)
Journal Article
Heaton, C. E. D., Austin, J. S., Ruer, L., Cottam, N. D., Wang, F., He, Y., Rance, G. A., Rose, F. R. A. J., Wildman, R. D., Hague, R. J. M., Makarovsky, O., & Turyanska, L. (2025). Photonic Annealing of Inkjet Printed Graphene for Stretchable Wearable Healthcare Monitoring Devices. Advanced Materials Technologies, Article e00913. https://doi.org/10.1002/admt.202500913

Inkjet-printing of graphene (iGr) onto flexible and stretchable electronics has significant potential for environmental sensing and healthcare monitoring applications. However, conventional thermal annealing techniques often require high temperatures... Read More about Photonic Annealing of Inkjet Printed Graphene for Stretchable Wearable Healthcare Monitoring Devices.

Polyglycerol Resin Towards Sustainable 3D-Printing (2025)
Journal Article
George, K., Krumins, E., Tan, E., He, Y., Wildman, R. D., Owen, R., Segal, J., Cuzzucoli Crucitti, V., & Taresco, V. (2025). Polyglycerol Resin Towards Sustainable 3D-Printing. Faraday Discussions, https://doi.org/10.1039/d5fd00043b

Additive manufacturing (AM) techniques, also named as three-dimensional 3D-printing, have been widely recognised as promising technologies for rapid production of novel, personalised drug-delivery systems, scaffolds for biofabrication, food applicati... Read More about Polyglycerol Resin Towards Sustainable 3D-Printing.

High resolution 3D printed biocatalytic reactor core with optimized efficiency for continuous flow synthesis (2024)
Journal Article
Attwood, S. J., Leech, D., He, Y., Croft, A., Hague, R. J., Irvine, D. J., Wildman, R. D., & Pordea, A. (2025). High resolution 3D printed biocatalytic reactor core with optimized efficiency for continuous flow synthesis. Chemical Engineering Science, 305, Article 121156. https://doi.org/10.1016/j.ces.2024.121156

3D printing has the potential to transform biocatalytic continuous flow reactor technology, where precise control of topology is essential for maximizing reactor performance. By embedding enzymatic catalysts in polymer hydrogel networks, continuous s... Read More about High resolution 3D printed biocatalytic reactor core with optimized efficiency for continuous flow synthesis.

Inkjet Printed Multifunctional Graphene Sensors for Flexible and Wearable Electronics (2024)
Journal Article
Wang, F., Heaton, C., Cottam, N., Austin, J., Im, J., Fromhold, T. M., Wildman, R. D., Hague, R. J. M., Tuck, C., Makarovsky, O., & Turyanska, L. (2025). Inkjet Printed Multifunctional Graphene Sensors for Flexible and Wearable Electronics. Advanced Electronic Materials, 11(7), Article 2400689. https://doi.org/10.1002/aelm.202400689

The exceptional electrical properties of graphene with high sensitivity to external stimuli make it an ideal candidate for advanced sensing technologies. Inkjet printing of graphene (iGr) can provide a versatile platform for multifunctional sensor ma... Read More about Inkjet Printed Multifunctional Graphene Sensors for Flexible and Wearable Electronics.

A multiscale optimisation method for bone growth scaffolds based on triply periodic minimal surfaces (2021)
Journal Article
Lehder, E. F., Ashcroft, I. A., Wildman, R. D., Ruiz-Cantu, L. A., & Maskery, I. (2021). A multiscale optimisation method for bone growth scaffolds based on triply periodic minimal surfaces. Biomechanics and Modeling in Mechanobiology, 20, 2085-2096. https://doi.org/10.1007/s10237-021-01496-8

Tissue engineered bone scaffolds are potential alternatives to bone allografts and autografts. Porous scaffolds based on triply periodic minimal surfaces (TPMS) are good candidates for tissue growth because they offer high surface-to-volume ratio, ha... Read More about A multiscale optimisation method for bone growth scaffolds based on triply periodic minimal surfaces.

3-dimensional inkjet printing of macro structures from silver nanoparticles (2017)
Journal Article
Vaithilingam, J., Saleh, E., Körner, L., Wildman, R. D., Hague, R. J., Leach, R. K., & Tuck, C. J. (2018). 3-dimensional inkjet printing of macro structures from silver nanoparticles. Materials and Design, 139, https://doi.org/10.1016/j.matdes.2017.10.070

The adoption of additive manufacturing technology is gaining interest for processing precious metals. In this study, the capability of inkjet printing was explored to fabricate macroscopic parts from commercial silver nanoparticle ink (AgNPs). A besp... Read More about 3-dimensional inkjet printing of macro structures from silver nanoparticles.

3D reactive inkjet printing of polydimethylsiloxane (2017)
Journal Article
Sturgess, C., Tuck, C. J., Ashcroft, I. A., & Wildman, R. D. (2017). 3D reactive inkjet printing of polydimethylsiloxane. Journal of Materials Chemistry C, 5(37), 9733-9745. https://doi.org/10.1039/c7tc02412f

© 2017 The Royal Society of Chemistry. Material jetting is a process whereby liquid material can be deposited onto a substrate to solidify. Through a process of progressive additional layers, this deposition can then be used to produce 3D structures.... Read More about 3D reactive inkjet printing of polydimethylsiloxane.

3D inkjet printing of tablets exploiting bespoke complex geometries for controlled and tuneable drug release (2017)
Journal Article
Kyobula, M., Adedeji, A., Alexander, M. R., Saleh, E., Wildman, R. D., Ashcroft, I., Gellert, P. R., & Roberts, C. J. (2017). 3D inkjet printing of tablets exploiting bespoke complex geometries for controlled and tuneable drug release. Journal of Controlled Release, 261, 207-215. https://doi.org/10.1016/j.jconrel.2017.06.025

A hot melt 3D inkjet printing method with the potential to manufacture formulations in complex and adaptable geometries for the controlled loading and release of medicines is presented. This first use of a precisely controlled solvent free inkjet pri... Read More about 3D inkjet printing of tablets exploiting bespoke complex geometries for controlled and tuneable drug release.

A Tripropylene Glycol Diacrylate-based Polymeric Support Ink for Material Jetting (2017)
Journal Article
Aboulkhair, N., He, Y., Zhang, F., Saleh, E., Vaithilingam, J., Aboulkhair, N. T., Begines, B., Tuck, C. J., Hague, R. J., Ashcroft, I. A., & Wildman, R. D. (2017). A Tripropylene Glycol Diacrylate-based Polymeric Support Ink for Material Jetting. Additive Manufacturing, 16, 153-161. https://doi.org/10.1016/j.addma.2017.06.001

© 2017 Support structures and materials are indispensable components in many Additive Manufacturing (AM) systems in order to fabricate complex 3D structures. For inkjet-based AM techniques (known as Material Jetting), there is a paucity of studies o... Read More about A Tripropylene Glycol Diacrylate-based Polymeric Support Ink for Material Jetting.

A novel approach to design lesion-specific stents for minimum recoil (2016)
Journal Article
Farhan Khan, M., Brackett, D., Ashcroft, I., Tuck, C., & Wildman, R. D. (in press). A novel approach to design lesion-specific stents for minimum recoil. Journal of Medical Devices, 11(1), Article 011001. https://doi.org/10.1115/1.4034880

Stent geometries are obtained by topology optimization for minimized compliance under different stenosis levels and plaque material types. Three levels of stenosis by cross-sectional area, i.e., 30%, 40%, and 50% and three different plaque material p... Read More about A novel approach to design lesion-specific stents for minimum recoil.