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Accelerating Hydrogen Economy

Hydrogen is an extremely important industrial chemical but is also a clean fuel or as an energy carrier whether in the form of liquid hydrogen or liquid ammonia replacing carbon-con more...

Supervisor(s): Ho-Baillie, Anita (Professor)

Hydrogen production from biomass and waste fuels

This project will investigate experimentally, different thermochemical techniques for converting biomass into useful energy. more...

Supervisor(s): Harris, Andrew (Professor)

Catalysis of Sustainable Processes

Available projects involve the development of novel catalysts for the generation of hydrogen by splitting water with sunlight, for biomass conversion, for green industrial oxidation more...

Supervisor(s): Masters, Tony (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)

Novel, nanoporous silicon carbide nanomaterials

This project involves the preparation, characterisation and comparison of porous, silicon carbide films utilising various polymeric precursors and techniques. more...

Supervisor(s): Harris, Andrew (Professor)

Surface attached enzymes for the production of biomass energy from agricultural waste

The ability to attach functional proteins, antibodies and enzymes to surfaces underpins the development of the next generation of implantable medical devices, biosensors and protein more...

Supervisor(s): Bilek, Marcela (Professor)

In-situ STEM investigation of the photocatalysis for water splitting

This project aims to provide the breakthrough information that is required to improve the efficiency of water splitting, by directly real-time observing, for the first time, photoca more...

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

Process intensification of fluidised bed reactors

The aim of the project is investigate novel fluidised bed configurations that will improve performance and reduce capital and operating costs for commercial installations. more...

Supervisor(s): Harris, Andrew (Professor)

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)