Controlling light-harvesting with complex perylene arrays. This project aims to artificially mimic photosynthesis. A new class of dye coloured plastics will create a platform technology that could have many applications including enhanced biodiesel production from algae and 'smart' building materials enhancing electricity production from solar cells.
Deep-ultraviolet light source by frequency doubling of blue or green light for disinfection. Current ultraviolet light sources are inefficient and often bulky. By an alternative approach, in which the wavelength of blue or green light is halved, this project will design and build compact, efficient sources of ultraviolet light, which can be used for disinfection and sterilization. Such devices can be fabricated by Australian industry in Australia.
Understanding production and application of alpha emitting radionuclides. This project aims to develop new materials to improve the efficiency of production of radionuclides, as well as tools to improve our understanding of isotope decay products to to improve efficiency of delivery. High performance polymers will be evaluated to establish optimal design properties for enhanced radionuclide collection from novel generators of isotopic lead (Pb-212), and new methods will be developed to improve u ....Understanding production and application of alpha emitting radionuclides. This project aims to develop new materials to improve the efficiency of production of radionuclides, as well as tools to improve our understanding of isotope decay products to to improve efficiency of delivery. High performance polymers will be evaluated to establish optimal design properties for enhanced radionuclide collection from novel generators of isotopic lead (Pb-212), and new methods will be developed to improve understanding of isotope product stability. Anticipated outcomes will provide greater production and utility of radioisotopes in radiopharmaceuticals, while building strong ties with partner AdvanCell Isotopes. This could improve manufacture of radionuclides, expanding capability and applications in radiopharmaceuticals.Read moreRead less
The development of inexpensive negatively charged films to increase the efficiency of commercial solar cells. This project aims to reduce the cost of solar electricity by developing inexpensive, negatively charged dielectric films. When deposited on the surfaces of commercial solar cells, these films will significantly increase cell efficiency, thereby producing more power from a given area.
Core loss mechanisms in soft magnetic nanostructures. This project aims to clarify the mechanism of power losses in magnetic cores used in the petrol-electric hybrid cars by investigating the relationship between the core losses and magnetic correlation lengths in iron alloys. This project expects to generate new knowledge on the effect of magneto-mechanical interaction on the anomalous core loss in iron based alloys. The intended outcomes include an experimental confirmation of the random aniso ....Core loss mechanisms in soft magnetic nanostructures. This project aims to clarify the mechanism of power losses in magnetic cores used in the petrol-electric hybrid cars by investigating the relationship between the core losses and magnetic correlation lengths in iron alloys. This project expects to generate new knowledge on the effect of magneto-mechanical interaction on the anomalous core loss in iron based alloys. The intended outcomes include an experimental confirmation of the random anisotropy model, a major theoretical model in nanostructured materials and identification of ideal magnetic domain configurations for lower power losses. These intended outcomes should bring great benefits to the development of low-carbon vehicle technologies for sustainable motorisation in Australia.Read moreRead less
Nanostructured soft magnetic alloys for low-carbon cars. The aim of this project is to prepare iron-based magnetic nanostructures that exhibit a magnetic induction of 1.9 tesla and core losses lower than those of iron-silicon steels, which would deliver smaller and efficient magnetic cores for petrol-electric hybrid cars. Preliminary results from the research team show that iron-metalloid alloys with an iron content of 87 per cent meet this magnetic induction with room for further improvement of ....Nanostructured soft magnetic alloys for low-carbon cars. The aim of this project is to prepare iron-based magnetic nanostructures that exhibit a magnetic induction of 1.9 tesla and core losses lower than those of iron-silicon steels, which would deliver smaller and efficient magnetic cores for petrol-electric hybrid cars. Preliminary results from the research team show that iron-metalloid alloys with an iron content of 87 per cent meet this magnetic induction with room for further improvement of magnetic softness. The project aims to systematically investigate the effect of metalloid and micro-alloying elements on the nano-crystallisation behaviour of the precursor amorphous alloys in order to identify the alloy composition and processing conditions for preparing magnetically soft nanostructures.Read moreRead less
Soft magnetic nanostructures for clean automotive technologies: origin of induced magnetic anisotropies. This project will clarify the mechanism of annealing-induced magnetic anisotropies in magnetic nanostructures and thereby establish a basis for further alloy development of efficient core materials for electric motors. The project outcomes will potentially lead to a significant reduction of the heat loss in petrol-electric hybrid cars.
metal hydride reactors for high temperature thermochemical heat storage. The aim of this project is to develop a laboratory-based prototype for energy storage in concentrating solar power (CSP) systems using metal hydrides as a chemical energy storage medium. The successful development of cost-effective energy storage technologies is expected to dramatically increase the deployability of CSP systems and this, in turn, will greatly enhance our capacity to reduce reliance on fossil fuels. The outc ....metal hydride reactors for high temperature thermochemical heat storage. The aim of this project is to develop a laboratory-based prototype for energy storage in concentrating solar power (CSP) systems using metal hydrides as a chemical energy storage medium. The successful development of cost-effective energy storage technologies is expected to dramatically increase the deployability of CSP systems and this, in turn, will greatly enhance our capacity to reduce reliance on fossil fuels. The outcomes of the project are planned to be used towards the development of a commercially viable solar thermal energy storage system. The project also plans to conduct fundamental research into the development of new high-temperature metal hydrides suitable for energy storage in CSP systems.Read moreRead less
Concentrating solar thermal energy storage using metal hydrides. This project will investigate energy storage for concentrating solar thermal energy systems. These systems can be used to efficiently generate electricity in remote locations, day and night, using solar energy. The solar energy is converted to heat energy and then chemical energy stored in a metal-hydrogen compound.
Designing the Next Generation of High Performance Cutting Tools. In order for Australian manufacturers to improve their global competitiveness in the production of manufactured goods it is essential to have access to cost effective high performance cutting tools. This project seeks to meet this challenge by exploiting new pathways in the development of advanced metallic-based vapour deposited coatings. This new approach will provide a much needed opportunity for value adding in the economically ....Designing the Next Generation of High Performance Cutting Tools. In order for Australian manufacturers to improve their global competitiveness in the production of manufactured goods it is essential to have access to cost effective high performance cutting tools. This project seeks to meet this challenge by exploiting new pathways in the development of advanced metallic-based vapour deposited coatings. This new approach will provide a much needed opportunity for value adding in the economically significant area of tribological coatings for industrial components. The outcomes of this project will directly impact on the ability of Sutton Tools, an Australian owned company, to sustain and expand its export markets while adding more broadly to the competitiveness of Australia's manufacturing industry.Read moreRead less