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Novel Electrodes for rapid electrophysiological recording

Rapid monitoring of emergencies including heart attack and stroke are limited by electrode movements.  This project aims at using a range of methods to improve electrodes inclu more...

Supervisor(s): McEwan, Alistair (Professor), Jin, Craig (Associate Professor), Leong, Philip (Professor)

Modelling the hardening behaviour of Magnesium alloys using 3D disloation dynamic simulations

This project aims to develop a 3D dislocation dynamics model to understand the hardening mechanisms at play during the deformation alloys containing precipitates more...

Supervisor(s): Proust, Gwenaelle (Dr)

Mechanical behaviour of semiconductor nanowires

This project aims to apply in-situ deformation transmission electron microscopy and finite element analysis to explore the effect of materials dimensions on the mechanical behaviour more...

Supervisor(s): Liao, Xiaozhou (Professor)

Catalysis of Sustainable Processes

Available projects involve the development of novel catalysts for the generation of hydrogen by splitting water with sunlight, for biomass conversion, for green industrial oxidation more...

Supervisor(s): Masters, Tony (Professor)

Self-assembled photonics

Self-Assembled photonics is fast becoming one of the leading photonic fabrication technologies since it is potentially compatible with fibre and integrated optics, including silicon more...

Supervisor(s): Canning, John (Honorary Professor)

Expanding the scope of the Stetter reaction

Opportunities exist to build complex organic molecules using the organocatalytic Stetter reaction. more...

Supervisor(s): McErlean, Christopher (Associate Professor)

Damage, fracture and fragmentation of concrete at high strain rates

The project aims to characterize and model concrete at high strain rates, and to study the damage, fracture and fragmentation of concrete subjected to high rate loads through an int more...

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

Dynamic deformation of polycrystalline metals under impact

The project aims to develop a physics-based crystal plasticity model for predicting the dynamic deformation of polycrystalline metals under the high-strain-rate and shock loading co more...

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

Why are Ionic Liquids Extraordinary Solvents?

The use of ionic liquids has exploded over the last decades as solvents for unusual or difficult chemical syntheses.  These liquids consist solely of ions and have melting poin more...

Supervisor(s): Warr, Gregory (Professor)

Laboratory Exobiology: Prebiotic Environments in Ionic Liquids?

Life in the universe is widely presumed only to be viable in the ‘Goldilocks zone’ around a star, where liquid water is available.  Some have speculated that Titan more...

Supervisor(s): Warr, Gregory (Professor)