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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)

Customising the acidity of novel nano-catalysts for desired catalytic reactions

To investigate through first principles calculations, the fundamental physics and chemistry of novel solid acid nano-catalysts with the overall goal of understanding and predicting 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 Control Theory

We address the challenge of creating efficient, error-resilient quantum control approaches for use in future quantum technologies. more...

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

Nano-catalysts for carbon neutral futures: Conversion of CO2 into valuable chemicals

To investigate functionalized porous nano-composites for advanced physical and chemical processes to convert CO2 to valuable chemicals from theory and computations. more...

Supervisor(s): Stampfl, Catherine (Professor)

Understanding and design of new multiferroic materials

Using first-principle theory and calculation, this project will investigate puzzling complex phenomena in multiferroics with the aim of designing new multiferroic materials for the more...

Supervisor(s): Stampfl, Catherine (Professor)

Graphene: a journey of appreciation and exploration via computational simulations

This project aims to study several graphene-based nanostructures including nanoribbon, nanodots and nanoantidots and their optical, electrical and magnetic properties by first princ more...

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