All Outputs (11)

Chitosan as a coupling agent for phosphate glass fibre/polycaprolactone composites (2018)
Journal Article
Tan, C., Rudd, C., Parsons, A. J., Sharmin, N., Zhang, J., Chen, W., & Ahmed, I. (2018). Chitosan as a coupling agent for phosphate glass fibre/polycaprolactone composites. Fibers, 6(4), https://doi.org/10.3390/fib6040097

This study shows that chitosan (CS) could be highly useful as a coupling agent in phosphate glass fibre/polycaprolactone (PGF/PCL) composites, as it improved the interfacial shear strength by up to 78%. PGFs of composition 45P2O5-5B2O3-5Na2O-24CaO-10... Read More about Chitosan as a coupling agent for phosphate glass fibre/polycaprolactone composites.

Developing unique geometries of phosphate-based glasses and their prospective biomedical applications (2018)
Journal Article
Ahmed, I., Ren, H., & Booth, J. (2019). Developing unique geometries of phosphate-based glasses and their prospective biomedical applications. Johnson Matthey Technology Review, 63(1), 34-42. https://doi.org/10.1595/205651319x15426460058863

© 2019 Johnson Matthey Phosphate-based glasses are promising materials for a range of applications including biomedical, veterinary and optical. These glasses are distinguished by the presence of at least one terminal oxygen atom, which gives phospha... Read More about Developing unique geometries of phosphate-based glasses and their prospective biomedical applications.

The mechanical property, degradation and cytocompatibility analysis of novel phosphate glass fiber textiles (2018)
Journal Article
Zhu, C., Ahmed, I., Parsons, A., Liu, J., & Liu, X. (2019). The mechanical property, degradation and cytocompatibility analysis of novel phosphate glass fiber textiles. Textile Research Journal, 89(16), 3280-3290. https://doi.org/10.1177/0040517518809052

© The Author(s) 2018. Phosphate glass fibers have been widely considered as potential biomedical materials for orthopedical application due to their full degradability and excellent cytocompatibility. In this study, phosphate-based glass fibers were... Read More about The mechanical property, degradation and cytocompatibility analysis of novel phosphate glass fiber textiles.

Novel bioresorbable textile composites for medical applications (2018)
Conference Proceeding
Zhu, C., Ahmed, I., Parsons, A. J., Wang, Y., Tan, C., Liu, J., …Liu, X. (2018). Novel bioresorbable textile composites for medical applications. In N/A

Currently, phosphate glass fibre (PGF) reinforced composites are a potential solution for bone repairing due to sufficient mechanical properties and full bioresorbability. In this study, a small inkle-type loom for hand weaving facilitated the produc... Read More about Novel bioresorbable textile composites for medical applications.

Effects of Fe2O3 addition and annealing on the mechanical and dissolution properties of MgO- and CaO-containing phosphate glass fibres for bio-applications (2018)
Journal Article
Tan, C., Ahmed, I., Parsons, A. J., Zhu, C., Betanzos, F. B., & Liu, X. (2018). Effects of Fe2O3 addition and annealing on the mechanical and dissolution properties of MgO- and CaO-containing phosphate glass fibres for bio-applications. Biomedical Glasses, 4(1), https://doi.org/10.1515/bglass-2018-0006

This paper investigated the preparation of phosphate glass fibres (PGFs) in the following systems: i) 45P2O5-5B2O3-5Na2O-(29-x)CaO-16MgO-(x)Fe2O3and ii) 45P2O5-5B2O3-5Na2O-24CaO-(21-x)MgO-(x)Fe2O3(where x = 5, 8 and 11 mol%) for biomedical applicatio... Read More about Effects of Fe2O3 addition and annealing on the mechanical and dissolution properties of MgO- and CaO-containing phosphate glass fibres for bio-applications.

Flexible and transparent films produced from cellulose nanowhisker reinforced agarose (2018)
Journal Article
Felfel, R. M., Hossain, K. M. Z., Kabir, S. F., Yee, S. L., Ahmed, I., & Grant, D. M. (2018). Flexible and transparent films produced from cellulose nanowhisker reinforced agarose. Carbohydrate Polymers, 194, https://doi.org/10.1016/j.carbpol.2018.04.005

Transparent and flexible nanocomposite films with a range of Agarose to Cellulose Nano-Whisker (CNW) ratios were produced using never-dried CNWs. The incorporation of never-dried CNWs within Agarose played an important role in the surface roughness (... Read More about Flexible and transparent films produced from cellulose nanowhisker reinforced agarose.

Porous calcium phosphate glass microspheres for orthobiologic applications (2018)
Journal Article
Hossain, K. M. Z., Patel, U., Kennedy, A. R., Macri-Pellizzeri, L., Sottile, V., Grant, D. M., …Ahmed, I. (2018). Porous calcium phosphate glass microspheres for orthobiologic applications. Acta Biomaterialia, 72, 396-406. https://doi.org/10.1016/j.actbio.2018.03.040

© 2018 Orthobiologics is a rapidly advancing field utilising cell-based therapies and biomaterials to enable the body to repair and regenerate musculoskeletal tissues. This paper reports on a cost-effective flame spheroidisation process for producti... Read More about Porous calcium phosphate glass microspheres for orthobiologic applications.

Electric field-assisted orientation of short phosphate glass fibers on stainless steel for biomedical applications (2018)
Journal Article
Chen, Q., Jing, J., Qi, H., Ahmed, I., Yang, H., Liu, X., …Boccaccini, A. R. (2018). Electric field-assisted orientation of short phosphate glass fibers on stainless steel for biomedical applications. ACS Applied Materials and Interfaces, 10(14), 11529-11538. https://doi.org/10.1021/acsami.8b01378

Structural and compositional modifications of metallic implant surfaces are being actively investigated to achieve improved bone-to-implant bonding. In this study, a strategy to modify bulk metallic surfaces by electrophoretic deposition (EPD) of sho... Read More about Electric field-assisted orientation of short phosphate glass fibers on stainless steel for biomedical applications.

Live quantitative monitoring of mineral deposition in stem cells using tetracycline hydrochloride (2018)
Journal Article
Macri-Pellizzeri, L., De Melo, N., Ahmed, I., Grant, D. M., Scammell, B., & Sottile, V. (2018). Live quantitative monitoring of mineral deposition in stem cells using tetracycline hydrochloride. Tissue Engineering Part C Methods, 24(3), https://doi.org/10.1089/ten.TEC.2017.0400

The final stage of in vitro osteogenic differentiation is characterized by the production of mineral deposits containing calcium cations and inorganic phosphates, which populate the extracellular matrix surrounding the cell monolayer. Conventional hi... Read More about Live quantitative monitoring of mineral deposition in stem cells using tetracycline hydrochloride.

Simulating damage onset and evolution in fully bio-resorbable composite under three-point bending (2018)
Journal Article
Gao, X., Chen, M., Yang, X., Harper, L., Ahmed, I., & Lu, J. (2018). Simulating damage onset and evolution in fully bio-resorbable composite under three-point bending. Journal of the Mechanical Behavior of Biomedical Materials, 81, https://doi.org/10.1016/j.jmbbm.2018.02.022

This paper presents a strain-based damage model to predict the stress-strain relationship and investigate the damage onset and evolution of the fibre and matrix of a fully bio-resorbable phosphate glass fibre reinforced composite under three-point be... Read More about Simulating damage onset and evolution in fully bio-resorbable composite under three-point bending.

Single solvent based film casting method for the production of porous polymer films (2018)
Journal Article
Hossain, K. M. Z., Felfel, R. M., Ogbilikana, P. S., Thakker, D., Grant, D. M., Scotchford, C., & Ahmed, I. (2018). Single solvent based film casting method for the production of porous polymer films. Macromolecular Materials and Engineering, 303, https://doi.org/10.1002/mame.201700628

A single solvent based film casting process for fabricating porous polymer films was developed in this study. The porous film was produced by mixing concentrated polylactic acid/ chloroform solution (20 wt%) and fresh chloroform solvent followed by f... Read More about Single solvent based film casting method for the production of porous polymer films.