Our research typically occurs at the interface between established scientific disciplines, i.e. chemistry, physics, biology, engineering and materials science. Because of this we adopt a multi-scale, multi-disciplinary approach that enables us to bring a wide range of skills to bear on pressing environmental and sustainable development problems. We work with experts from the School of Chemical and Biomolecular Engineering and across the University of Sydney, as well as with institutions in Asia, Europe, Africa and the USA.
Our research is divided into three streams, although there is often crossover between streams:
- Zero emission product and process design
- Renewable energy and the ‘hydrogen economy’
- Nanotechnology and nanomaterials
We are currently undertaking the following projects:
Zero emission product and process design
- 'Waste to energy' and 'waste to product' technologies.
- Zero emission design for the pulp and paper industry.
- Sustainable biological processes.
- Biomimicry in chemical engineering
- Phytoextraction, phytomining and bioremediation to generate value added by-products.
Renewable Energy and the Hydrogen Economy
- Hydrogen production from waste materials.
- Solar thermal gasification of biomass and wastes.
- Biomass combustion, gasification and pyrolysis.
- Process intensification of fluidisation reactors.
- Development of advanced porous burner technologies
Nanotechnology and Synthesis of Nanomaterials
- Carbon nanotube synthesis using fluidised beds.
- Phytosynthesis of metallic nanoparticles.
- Advanced membrane development for hydrogen gas separation.
- Development of nanoparticle fluidisation reactors.