Your Search Results

Modelling the mechanical behaviour of hexagonal materials during complex loadings

The project aims to develop a comprehensive crystal plasticity model to predict stress-strain curves and texture evolution of hexagonal close-packed metals during complex loadings. more...

Supervisor(s): Proust, Gwenaelle (Dr)

Self-Assembly and Self-Organization in Complex Systems

The project involves the study of the fundamental processes of self-assembly and self-organization that appear in many natural and synthetic systems. more...

Supervisor(s): Zomaya, Albert Y. (Professor)

Computer Supported Learning and Cognition

The CoCo Research Centre was created at the University of Sydney in 2003. Our primary goal is research. We study innovative uses of advanced learning technologies, in order to gain more...

Supervisor(s): Reimann, Peter (Professor), Goodyear, Peter (Professor), Markauskaite, Lina (Professor), Jacobson, Michael (Professor)

Parallel Stochastic Optimization Algorithms

The project aims to develop solution methodologies for combinatorial problems by using stochastic algorithms. more...

Supervisor(s): Zomaya, Albert Y. (Professor)

Brain Network Structure and Dynamics

This research area is concerned with developing better understanding of the structure of the brain, especially through modeling the dynamics and interactions of its neuronal network more...

Supervisor(s): Robinson, Peter (Professor)

Neural and behavioural mechanisms underlying associative learning.

My current interests are concerned with the processes that underlie Pavlovian conditioning, in particular the extinction and inhibition of responding. This topic is investigated wit more...

Supervisor(s): Harris, Justin (Professor)

Refining cell-based therapies to cure diabetes

The most promising route for a cure for type 1 diabetes is the use of insulin-secreting cells to replace those that have died. more...

Supervisor(s): Thorn, Peter (Professor)

Understanding slip and designing new slippery surfaces

Investigation of the properties of surfaces that affect the slip of liquids at solid interface, with the potential to develop more energy-efficient microfluidic devices. more...

Supervisor(s): Neto, Chiara (Professor)

Targeted delivery of anticancer agents

An ideal anticancer agent is one that is inert as it moves around the body, is selectively taken up by cancer cells, and is activated once inside those cells. The multiple oxidation more...

Supervisor(s): Hambley, Trevor (Emeritus Professor)

Surface attached enzymes for the production of biomass energy from agricultural waste

The ability to attach functional proteins, antibodies and enzymes to surfaces underpins the development of the next generation of implantable medical devices, biosensors and protein more...

Supervisor(s): Bilek, Marcela (Professor)