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Responsive Metal-Organic Framework Materials

Metal-organic frameworks (MOFs) are a major new family of material that are attracting enormous interest due to their designable structures and advanced capabilities.  This pro more...

Supervisor(s): Kepert, Cameron (Professor)

Transformersomes: shape-shifting polymer nanostructures

Synthetic polymers can self-assemble into an impressive spectrum of well-defined nanoscale architectures that behave in intriguing ways, from catalysing chemical reactions to intera more...

Supervisor(s): Roberts, Derrick (Dr)

Atmospheric cold plasma technology

Novel cold plasma technologies offer a green chemistry approach for applications in agriculture, food safety, water purification, cancer treatment, materials processing and energy g more...

Supervisor(s): Cullen, Patrick (Professor)

Ground-state cooling and high-fidelity detection of large ion crystals in a Penning trap for quantum simulations

The understanding of the dynamics of many-body quantum systems is one of the most challenging problems in physics today. Advancing our knowledge of these systems can lead to signifi more...

Supervisor(s): Wolf, Robert (Dr), Biercuk, Michael J. (Professor)

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)

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)

Encapsulated Next generation perovskite solar cells

This project will build the next generation of photovoltaic solar cells for addressing the air-conditioning load in buildings by converting their facades to energy harvesting surfac more...

Supervisor(s): McKenzie, David (Professor)

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)