Soft Matter systems
My research employs nano- and mesoscale modeling to investigate complex soft matter systems, with a specific focus on:
- The rheological behavior of complex fluids.
- The dynamics of poroelastic materials.
- The simulation of carbohydrate polymer networks.
Ultimately, this work aims to advance our understanding of materials of relevance in plant cell biology, food science, and medicine.
Related Publications
Micromechanical modelling of cellulose hydrogel composites based on coarse-grained molecular dynamics
Mauricio R. Bonilla, Sridhar K. Kannam, Matthew T. Downton, Monika S. Doblin, Antony Bacic, Michael J. Gidley, Jason R. Stokes
Soft Matter, 21, 5480-5493 (2025)
Viscoelasticity of non-colloidal hydrogel particle suspensions at the liquid–solid transition
Heather M. Shewan, Gleb E. Yakubov, Mauricio R. Bonilla, Jason R. Stokes
Soft Matter, 17, 5073-5083 (2021)
Nanostructure and poroviscoelasticity in cell wall materials from onion, carrot and apple: Roles of pectin
P. Lopez-Sanchez, M. Martinez-Sanz, M.R. Bonilla, F. Sonni, E.P. Gilbert, M.J. Gidley
Food Hydrocolloids, 98, 105253 (2020)
Atomistic Insight into Ion Transport and Conductivity in Ga/Al-Substituted Li7La3Zr2O12 Solid Electrolytes
Grace K. Dolan, Ben Cartwright, Mauricio R. Bonilla, Michael J. Gidley, Jason R. Stokes, Gleb E. Yakubov
Carbohydrate Polymers, 208, 97-107 (2019)
Mucin gel assembly is controlled by a collective action of non-mucin proteins, disulfide bridges, Ca2+-mediated links, and hydrogen bonding
Oliver W. Meldrum, Gleb E. Yakubov, Mauricio R. Bonilla, Omkar Deshmukh, Michael A. McGuckin, Michael J. Gidley
Scientific Reports, 8, 5802 (2018)
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