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Geometric analysis of transcendental solutions of nonlinear systems

Modern science derives its power from mathematics. The project aims to capture, identify and describe pivotal, transcendental solutions of nonlinear systems that are universal in sc more...

Supervisor(s): Joshi, Nalini (Professor), Radnovic, Milena (Dr)

Advanced organic electronics

This project aims to identify design rules for next-generation organic electronics, especially organic solar cells. It will use both computational simulations and experimental work more...

Supervisor(s): Kassal, Ivan (Dr)

The power of perovskites

Metal halide perovskites have attracted global research attention in the last decade. While their application for solar is promising being the fastest advancing PV technology with m more...

Supervisor(s): Ho-Baillie, Anita (Professor)

Ionic Molecular Hybrid Liquids

An opportunity is available for a PhD scholar to undertake research studies into the structure and properties of nano structured ionic-molecular hybrid liquids. The aim of the resea more...

Supervisor(s): Warr, Gregory (Professor)

Accelerating perovskite solar cells for the real world

While perovskite solar cells have been the fastest advancing PV technology, what else is needed to accelerate the deployment of this technology in the real world? Why do demonstrate more...

Supervisor(s): Ho-Baillie, Anita (Professor)

“Local Sleep” in the Awake Brain: An Underlying Cause of Neurobehavioural Deficits in Obstructive Sleep Apnea?

Snorers who are easily distracted and struggle to focus on the job might have a new culprit to blame: Napping neurons. We are investigating why so many of the nation’s snore more...

Supervisor(s): D’Rozario, Angela (Dr)

A complex systems approach to colony collapse in honeybees

Honeybee colonies around the world are under threat due to an array of interacting stressors some of which can cause colonies to collapse suddenly and with little warning. This proj more...

Supervisor(s): Latty, Tanya (Dr)

Multiscale modelling and simulation of solid-fluid interactions in porous media

The aim of this project is to develop computational tools for modelling the coupled fluid transport-solid deformation behaviour in porous media at micro-, meso- and macro-scales. more...

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

Numerical simulation of hydraulic fracturing

The aim of this project is to develop a 3D hydraulic fracturing simulator that couples fluid-proppant-rock interactions within the framework of material point method (MPM). more...

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

Development of Shale Gas Reservoir Simulator

The aim of this project is to develop a triple porosity rock model coupled with the transport of gas and liquid phases for a more accurate evaluation of the shale gas recovery. more...

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