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Computational study of the structure and dynamics of supercooled liquids

Amorphous or glassy solids represent one of the last great challenges for materials science, chemical physics and condensed matter physics. These important materials present us with more...

Supervisor(s): Harrowell, Peter (Professor), Hudson, Toby (Dr)

Regenerative engineering – chemo-physical properties gradient as a tool to control cell responses

This project will develop a new CO2 based technologies to impregnate the implant surfaces with functional biomolecules and create topography. The primary aim is to develop a new, co more...

Supervisor(s): Chrzanowski, Wojciech (Dr)

Naturally good - fibres and particles of natural origin as a new biomaterials for regenerative medicine and drug delivery

This project will investigate characteristics of new materials of natural-origin for biomedical applications and drug delivery. The primary aim is to develop new ‘green’ more...

Supervisor(s): Chrzanowski, Wojciech (Dr)

Conduction in Compacted Granular Materials

This project will focus on developing a unified constitutive model for granular heat flow and electrical conduction by combining critical fine-scale effects emerging under extreme c more...

Supervisor(s): Gan, Yixiang (Dr)

Dynamic Responses of Granular Materials to Impact Loading

This project aims to experimentally investigate the dynamic responses of granular materials to high strain rates loading using split Hopkinson bar. The experimental data will be use more...

Supervisor(s): Shen, Luming (Associate Professor)

The origin of mass at the Large Hadron Collider

This project aims to investigate various theoretical aspects related to the Higgs-like particle discovered at the Large Hadron Collider (LHC) and possible new theories behind the el more...

Supervisor(s): Kobakhidze, Archil (Associate Professor)

Information Thermodynamics at the Edge of Chaos

Funding is available for applicants interested in carrying out fundamental and applied research in the field of complex systems. The research will involve theoretical work as well a more...

Supervisor(s): Prokopenko , Mikhail (Professor)

Agent-based modelling, simulation and forecasting of epidemics

The research will involve theoretical work in information theory and network science, as well as computer agent-based simulations. It will aim to reveal fundamental theoretical conn more...

Supervisor(s): Prokopenko , Mikhail (Professor)

Guided Self-Organisation and Swarm Engineering

Funding is available for applicants interested in carrying out fundamental and applied research in the field of complex systems. The research will involve theoretical work as well a more...

Supervisor(s): Prokopenko , Mikhail (Professor)

Modelling cascades of failures in interdependent networks

The research will involve theoretical work in information theory and network science, as well as computer agent-based simulations. It will study fragility of modern civil infrastruc more...

Supervisor(s): Prokopenko , Mikhail (Professor)