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Designing tailored nanomaterials for CO2 capture

In this project we will develop a porous coating for our novel nano-structured CaO sorbent which will prevent abrasion of the particles inside the fluidised bed reactor, and th more...

Supervisor(s): Harris, Andrew (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)

Nanotube purification

This project involves the development of conventional and microwave powered acid digestion processes which successfully remove catalysts and their supports from the nanotube product more...

Supervisor(s): Harris, Andrew (Professor)

Development of advanced materials for porous burner reactors

The project will involve; materials development, laboratory scale batch preparation and testing (both in the porous burner, and using advanced analytical techniques), managing the p more...

Supervisor(s): Harris, Andrew (Professor)

Synthesis of single walled nanotubes in fluidised beds

This project involves synthesis of single walled nanotubes in fluidised beds. more...

Supervisor(s): Harris, Andrew (Professor)

Understanding slip and designing new slippery surfaces

Investigation of the properties of surfaces that affect the slip of liquids at solid interface, with the potential to develop more energy-efficient microfluidic devices. more...

Supervisor(s): Neto, Chiara (Professor)

Functional structured polymer coatings for water condensation

Development and optimisation of micro-patterned surfaces that can collect water by condensation from humid air. more...

Supervisor(s): Neto, Chiara (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)