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Novel Properties of Semiconductor Nanostructures by Strain Engineering

This project aims to understand the novel properties of nanostructured semiconductors under strain by advanced characterisations and simulations. more...

Supervisor(s): Zheng, Rongkun (Associate Professor)

New self-assembled monolayers for surface modification of surfaces in electronic components

Investigation of the new families of self-assembled monolayers to be used with non-protic solvents. more...

Supervisor(s): Neto, Chiara (Associate Professor)

New liquid-infused surfaces based on wrinkled Teflon

Investigation of the new families of slippery nanostructured surfaces with reduced hydrodynamic drag. more...

Supervisor(s): Neto, Chiara (Associate Professor)

Optimisation of droplet roll-off on patterned surfaces

Investigation through molecular dynamics simulations the surface features that optimise the detachment and roll-off of liquid droplets. more...

Supervisor(s): Neto, Chiara (Associate Professor)

Quantum transport in molecule/carbon-based nanostructures for new molecular electronic devices

Various projects available in the field molecular electronics and sensors. Large scale ab initio calculations will be used to investigate and predict novel structures and systems. A more...

Supervisor(s): Stampfl, Catherine (Professor)

Mechanism and control of diamond and graphene-based nanostructures using direct electric-field and laser excitation

To investigate the sculpting of carbon-based structures through controlled electric field and/or laser excitation, through first-principles based calculations. more...

Supervisor(s): Stampfl, Catherine (Professor)

Quantum Enabled Sensing

Development of new quantum-enabled sensors providing unrivalled performance across a range of applications. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Quantum Simulation and Large-Scale Entanglement

Developing techniques for the study of large-scale quantum simulators based on crystals of trapped atomic ions. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Quantum Control with Trapped Ions

This project aims to develop novel techniques for the control of quantum systems using trapped atomic ions. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Atomic structure, assembly and interactions of functional amyloids

This project aims to determine the atomic structure of functional amyloids and to examine how they interact with substrates. The insights obtained will be applied to the development more...

Supervisor(s): Kwan, Ann (Dr)