Synthesis of functionalised metal oxide beads with hierarchical pores for radionuclide and metal sequestration. The central aim of this project is to fabricate nanostructured materials to address the worldwide issue of nuclear waste. These novel materials, with tailored porosity and surface functionality, will decrease both radioactive waste volume and the potential for environmental risk. The collaboration between the Caruso group at the University of Melbourne and the Luca group at ANSTO will ....Synthesis of functionalised metal oxide beads with hierarchical pores for radionuclide and metal sequestration. The central aim of this project is to fabricate nanostructured materials to address the worldwide issue of nuclear waste. These novel materials, with tailored porosity and surface functionality, will decrease both radioactive waste volume and the potential for environmental risk. The collaboration between the Caruso group at the University of Melbourne and the Luca group at ANSTO will educate more scientists and students in the areas of nuclear science and engineering, and the environmental impact of nuclear power generators. Such expertise is currently in high demand around the world, thereby enhancing Australia's position in the global nuclear field.Read moreRead less
Novel nanostructured alloy membranes for hydrogen permeation: Advanced materials technology for renewable energy. Hydrogen purification by alloy membranes is a key technology in maintaining the greenhouse gas emission low while using the fossil fuels including coal for energy generation. However, the alloys currently available for the membrane separation are mostly based on a costly precious metal palladium, making the application of the technology limited. The proposed non-equilibrium material ....Novel nanostructured alloy membranes for hydrogen permeation: Advanced materials technology for renewable energy. Hydrogen purification by alloy membranes is a key technology in maintaining the greenhouse gas emission low while using the fossil fuels including coal for energy generation. However, the alloys currently available for the membrane separation are mostly based on a costly precious metal palladium, making the application of the technology limited. The proposed non-equilibrium material processing will enable us to fabricate novel nanocomposite niobium-based alloys to which excellent hydrogen permeation characteristics are expected with high economic viability. Successful development of the proposed alloys could enhance the competitiveness of the Australian coal industry worldwide.Read moreRead less