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Antibacterial activity of carbon nanomaterials

Understanding the antibacterial activity of carbon nanomaterials and exploring their practical applications more...

Supervisor(s): Chen, Yuan (Professor)

Nanocarbon for membrane application

Developing carbon hybrid composite membranes   more...

Supervisor(s): Chen, Yuan (Professor)

Assembly of three-dimensional carbon architectures

Developing novel assembly platforms to create new carbon architectures more...

Supervisor(s): Chen, Yuan (Professor)

Atomic structure, assembly, interactions and engineering of functional amyloids

This project aims to engineer hydrophobins for a range of biotechnological applications from coating of medical implants to formulation of drug delivery vehicles. The work includes more...

Supervisor(s): Kwan, Ann (Dr)

Carbon fibre supercapacitors and wearable devices

Developing carbon fibre based fibre supercapacitors and wearable devices more...

Supervisor(s): Chen, Yuan (Professor)

Exploring the field-dependent structural evolution of ferroelectric materials using in-situ transmission electron microscopy

This project aims to investigate the dynamical field-dependent structural responses of ferroelectric materials under mechanical and electrical excitations at different temperatures more...

Supervisor(s): Liao, Xiaozhou (Professor)

Single walled carbon nanotube chirality control

Design novel catalysts to control the chirality of single walled carbon nanotubes more...

Supervisor(s): Chen, Yuan (Professor)

Nanocarbon based electrocatalysts

Using microorganisms, particularly bacterial cells, as a novel precursor to synthesize heterogeneous carbon materials as electrocatalytic catalysts for key electrochemical reactions more...

Supervisor(s): Chen, Yuan (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 (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 (Professor)