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Professor CHRISTOPHER TUCK's Outputs (9)

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. (in press). Inkjet Printed Multifunctional Graphene Sensors for Flexible and Wearable Electronics. Advanced Electronic Materials, 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.

Drop-on-demand 3D printing of programable magnetic composites for soft robotics (2024)
Journal Article
Bastola, A., Parry, L., Worsley, R., Ahmed, N., Lester, E., Hague, R., & Tuck, C. (2024). Drop-on-demand 3D printing of programable magnetic composites for soft robotics. Additive Manufacturing Letters, 11, Article 100250. https://doi.org/10.1016/j.addlet.2024.100250

Soft robotics have become increasingly popular as a versatile alternative to traditional robotics. Magnetic composite materials, which respond to external magnetic fields, have attracted significant interest in this field due to their programmable tw... Read More about Drop-on-demand 3D printing of programable magnetic composites for soft robotics.

Additive manufacturing of functionalised atomic vapour cells for next-generation quantum technologies (2024)
Journal Article
Wang, F., Cooper, N., He, Y., Hopton, B., Johnson, D., Zhao, P., Tuck, C. J., Hague, R., Fromhold, T. M., Wildman, R., Turyanska, L., & Hackermueller, L. (2025). Additive manufacturing of functionalised atomic vapour cells for next-generation quantum technologies. Quantum Science and Technology, 10(1), Article 015019. https://doi.org/10.1088/2058-9565/ad8678

Atomic vapour cells are an indispensable tool for quantum technologies (QT), but potential improvements are limited by the capacities of conventional manufacturing techniques. Using an additive manufacturing (AM) technique—vat polymerisation by digit... Read More about Additive manufacturing of functionalised atomic vapour cells for next-generation quantum technologies.

Developing colloidal nanoparticles for inkjet printing of devices with optical properties tuneable from the UV to the NIR (2024)
Journal Article
Austin, J. S., Xiao, W., Wang, F., Cottam, N. D., Rivers, G., Ward, E. B., Luan, W., Tuck, C. J., Hague, R., Makarovsky, O., Turyanska, L., & James, T. S. (2024). Developing colloidal nanoparticles for inkjet printing of devices with optical properties tuneable from the UV to the NIR. Journal of Materials Chemistry C, https://doi.org/10.1039/D4TC01917B

Colloidal low-dimensional photo-sensitive nanomaterials have attracted significant interest for optoelectronic device applications where inkjet printing offers a high accuracy and low waste route for their deposition on silicon-based, as well as flex... Read More about Developing colloidal nanoparticles for inkjet printing of devices with optical properties tuneable from the UV to the NIR.

Enabling High-fidelity Personalized Pharmaceutical Tablets through Multimaterial Inkjet 3D Printing with a Water-soluble Excipient (2024)
Journal Article
Rivers, G., Lion, A., Rofiqoh Eviana Putri, N., Rance, G., Moloney, C., Taresco, V., Crucitti, V. C., Constantin, H., Inê Evangelista Barreiros, M., Cantu, L. R., Tuck, C., Rose, F. R. A. J., Hague, R. J. M., Roberts, C. J., Turyanska, L., Wildman, R. D., & He, Y. (2024). Enabling High-fidelity Personalized Pharmaceutical Tablets through Multimaterial Inkjet 3D Printing with a Water-soluble Excipient. Materials Today Advances, 22, Article 100493. https://doi.org/10.1016/j.mtadv.2024.100493

Additive manufacturing offers manufacture of personalised pharmaceutical tablets through design freedoms and material deposition control at an individual voxel level. This control goes beyond geometry and materials choices: inkjet based 3D printing e... Read More about Enabling High-fidelity Personalized Pharmaceutical Tablets through Multimaterial Inkjet 3D Printing with a Water-soluble Excipient.

Enabling high-fidelity personalised pharmaceutical tablets through multimaterial inkjet 3D printing with a water-soluble excipient (2024)
Journal Article
Rivers, G., Lion, A., Putri, N. R. E., Rance, G. A., Moloney, C., Taresco, V., Crucitti, V. C., Constantin, H., Evangelista Barreiros, M. I., Cantu, L. R., Tuck, C. J., Rose, F. R., Hague, R. J., Roberts, C. J., Turyanska, L., Wildman, R. D., & He, Y. (2024). Enabling high-fidelity personalised pharmaceutical tablets through multimaterial inkjet 3D printing with a water-soluble excipient. Materials Today Advances, 22, Article 100493. https://doi.org/10.1016/j.mtadv.2024.100493

Additive manufacturing offers manufacture of personalised pharmaceutical tablets through design freedoms and material deposition control at an individual voxel level. This control goes beyond geometry and materials choices: inkjet based 3D printing e... Read More about Enabling high-fidelity personalised pharmaceutical tablets through multimaterial inkjet 3D printing with a water-soluble excipient.

Additive Manufacturing of Electrically Conductive Multi-Layered Nanocopper in an Air Environment (2024)
Journal Article
Pervan, D., Bastola, A., Worsley, R., Wildman, R., Hague, R., Lester, E., & Tuck, C. (2024). Additive Manufacturing of Electrically Conductive Multi-Layered Nanocopper in an Air Environment. Nanomaterials, 14(9), Article 753. https://doi.org/10.3390/nano14090753

The additive manufacturing (AM) of functional copper (Cu) parts is a major goal for many industries, from aerospace to automotive to electronics, because Cu has a high thermal and electrical conductivity as well as being ~10× cheaper than silver. Pre... Read More about Additive Manufacturing of Electrically Conductive Multi-Layered Nanocopper in an Air Environment.

A facile one step route that introduces functionality to polymer powders for laser sintering (2024)
Journal Article
Krumins, E., Crawford, L. A., Rogers, D. M., Machado, F., Taresco, V., East, M., Irving, S. H., Fowler, H. R., Jiang, L., Starr, N., Parmenter, C. D., Kortsen, K., Cuzzucoli Crucitti, V., Avery, S. V., Tuck, C. J., & Howdle, S. M. (2024). A facile one step route that introduces functionality to polymer powders for laser sintering. Nature Communications, 15(1), Article 3137. https://doi.org/10.1038/s41467-024-47376-4

Laser Sintering (LS) is a type of Additive Manufacturing (AM) exploiting laser processing of polymeric particles to produce 3D objects. Because of its ease of processability and thermo-physical properties, polyamide-12 (PA-12) represents ~95% of the... Read More about A facile one step route that introduces functionality to polymer powders for laser sintering.

Quantum Nature of Charge Transport in Inkjet-Printed Graphene Revealed in High Magnetic Fields up to 60T (2024)
Journal Article
Cottam, N. D., Wang, F., Austin, J. S., Tuck, C. J., Hague, R., Fromhold, M., Escoffier, W., Goiran, M., Pierre, M., Makarovsky, O., & Turyanska, L. (2024). Quantum Nature of Charge Transport in Inkjet-Printed Graphene Revealed in High Magnetic Fields up to 60T. Small, 20(30), Article 2311416. https://doi.org/10.1002/smll.202311416

Inkjet‐printing of graphene, iGr, provides an alternative route for the fabrication of highly conductive and flexible graphene films for use in devices. However, the contribution of quantum phenomena associated with 2D single layer graphene, SLG, to... Read More about Quantum Nature of Charge Transport in Inkjet-Printed Graphene Revealed in High Magnetic Fields up to 60T.