Dr Matthew Hennessy
BSc, MSc, DPhil
Expertise
Current positions
Senior Lecturer
School of Engineering Mathematics and Technology
Contact
Press and media
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Research interests
Please see my website at https://hennessymatt.github.io for up-to-date information about my research and opportunities for PhD projects.
My interests generally lie at the interface between applied mathematics and soft matter. I am particularly interested in developing mathematical models of complex materials to better understand how their rich behaviours can be harnessed in emerging technologies (e.g. regenerative medicine, 3D printing, sustainable energy). I greatly enjoy working with experimental researchers and am always looking for new collaborations. Some topics of current interest are:
- The mechanics of hydrogels and their applications
- Instability-driven patterning and self-assembly
- Phase separation, particularly in elastic and charged materials
- Poroelasticity
- Photopolymerisation and 3D printing
- Lithium-ion batteries
Projects and supervisions
Research projects
Multi-scale modelling of polyelectrolyte gels
Principal Investigator
Managing organisational unit
School of Engineering Mathematics and TechnologyDates
01/01/2025 to 31/12/2027
Publications
Selected publications
04/05/2022Drying-induced stresses in poroelastic drops on rigid substrates
Physical Review E
Monomer diffusion into static and evolving polymer networks during frontal photopolymerisation
Soft Matter
Asymptotic reduction of a porous electrode model for lithium-ion batteries
SIAM Journal on Applied Mathematics
Recent publications
31/01/2025Interface conditions for a polyelectrolyte gel in a salt solution with a thin electrical double layer
Proceedings of the Royal Society A: Mathematical and Physical Sciences
Curvature controls beading in soft coated elastic cylinders
Journal of the Mechanics and Physics of Solids
Exploiting in silico modelling to enhance translation of liver cell therapies from bench to bedside
npj Regenerative Medicine
The impact of confinement on the deformation of an elastic particle under axisymmetric tube flow
IMA Journal of Applied Mathematics
Breakdown of electroneutrality in polyelectrolyte gels
European Journal of Applied Mathematics
