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In situ functionalisation of carbon nanotubes

This project involves functionalising carbon nanotubes, in situ, using a fluidised bed. more...

Supervisor(s): Harris, Andrew (Professor)

Synthesis of single walled nanotubes in fluidised beds

This project involves synthesis of single walled nanotubes in fluidised beds. more...

Supervisor(s): Harris, Andrew (Professor)

Spiral CNT synthesis in fluidised beds

This project involves the development of a fluidised-bed CVD process for the large-scale (kg/batch) synthesis of spiral CNTs. more...

Supervisor(s): Harris, Andrew (Professor)

Nanotube purification

This project involves the development of conventional and microwave powered acid digestion processes which successfully remove catalysts and their supports from the nanotube product more...

Supervisor(s): Harris, Andrew (Professor)

Development of tailored catalysts for CNT synthesis

This project involves the development of tailored catalysts for CNT synthesis. more...

Supervisor(s): Harris, Andrew (Professor)

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)

Structural Engineering

Visit our website at https://sydney.edu.au/engineering/our-research/infrastructure-and-transport/centre-for-advanced-structural-engineering.html We welcome applications from hi more...

Supervisor(s): Rasmussen, Kim (Professor), Wilkinson, Tim (Associate Professor), Ranzi, Gianluca (Professor), Shen, Luming (Associate Professor), Zhang, Hao (Dr)

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)

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)