Professor PHIL WILLIAMS's Outputs (2)

A Design of Experiments Approach for Enhancing Room Temperature Stability of a Lyophilised and Paper-Based Bacterial Cell-Free System (2025)
Journal Article
Shivakumar, T., Clark, J., Goode, A., Anyanwu, V. E., & Williams, P. M. (2025). A Design of Experiments Approach for Enhancing Room Temperature Stability of a Lyophilised and Paper-Based Bacterial Cell-Free System. Bioengineering, 12(3), Article 223. https://doi.org/10.3390/bioengineering12030223

Centralised cell-based biomanufacturing severely limits applicability in low-resource and extreme environments, where a largely untreated human population is present. Cell-free protein synthesis (CFPS) can surpass many of these limitations, due to it... Read More about A Design of Experiments Approach for Enhancing Room Temperature Stability of a Lyophilised and Paper-Based Bacterial Cell-Free System.

A Comparison of the Mechanical Properties of ECM Components and Synthetic Self-Assembling Peptides (2025)
Journal Article
Hartley, A., Williams, P. M., & Mata, A. (2025). A Comparison of the Mechanical Properties of ECM Components and Synthetic Self-Assembling Peptides. Advanced Healthcare Materials, Article 2402385. https://doi.org/10.1002/adhm.202402385

The field of tissue engineering is increasingly moving away from a one-size-fits-all approach of simple synthetic homogeneous gels, and embracing more tailored designs to optimize cell function and differentiation for the organ of interest. Extracell... Read More about A Comparison of the Mechanical Properties of ECM Components and Synthetic Self-Assembling Peptides.