Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560959
Funder
Australian Research Council
Funding Amount
$165,000.00
Summary
The Macquarie National Low Temperature Optoelectronic Thin Film Growth Facility. Funding is requested for an Australian facility for the growth of nitride and oxide thin films with in-situ optical analysis equipment for the monitoring of growth parameters. It is envisaged that this facility would be for the development of materials and device structures for photonic, electronic and optoelectronic applications. The facility will also provide a leading Australian source of these materials for fund ....The Macquarie National Low Temperature Optoelectronic Thin Film Growth Facility. Funding is requested for an Australian facility for the growth of nitride and oxide thin films with in-situ optical analysis equipment for the monitoring of growth parameters. It is envisaged that this facility would be for the development of materials and device structures for photonic, electronic and optoelectronic applications. The facility will also provide a leading Australian source of these materials for fundamental material studies utilising nuclear analysis and implantation technologies, high resolution X-ray diffraction, high spatial resolution micro-cathodoluminescence and other forms of analysis. Ex-situ optical analysis equipment is also requested for post-growth evaluation to compliment and evaluate the in-situ analysis.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101759
Funder
Australian Research Council
Funding Amount
$385,720.00
Summary
A novel fundamental approach to enable net shape manufacturing of low-cost high-performance titanium alloys . Oxygen is the bottleneck issue of titanium powder metallurgy, which radically deteriorates the ductility of titanium. This project aims to develop the essential fundamental knowledge and technical solutions to mitigate the detrimental effect of oxygen on the ductility of as-sintered titanium products and enable the net-shape fabrication of low-cost high-performance titanium alloys. This ....A novel fundamental approach to enable net shape manufacturing of low-cost high-performance titanium alloys . Oxygen is the bottleneck issue of titanium powder metallurgy, which radically deteriorates the ductility of titanium. This project aims to develop the essential fundamental knowledge and technical solutions to mitigate the detrimental effect of oxygen on the ductility of as-sintered titanium products and enable the net-shape fabrication of low-cost high-performance titanium alloys. This will be achieved by utilising the inexpensive and unique titanium hydride powder, rather than titanium metal powder, and by developing effective oxygen scavengers. The outcomes will form a robust basis for the creation of a viable titanium hydride powder metallurgy business.Read moreRead less
Net shape manufacturing of titanium alloys by powder metallurgy. This project is aiming at developing a novel net shape manufacturing for advanced materials (titanium alloys) and addresses Priority Goal of Advanced Materials of Research Priority 3: Frontier Technologies for Advanced Materials. It represents new science and innovative engineering and has the potential to produce valuable new intellectual property.
High performance drying of plantation grown eucalypt timber. Forest industries generate $14 billion annually in Australia and employs 86,000 staff. Hardwood sawn timber is a value added product and microwave technology will increase returns due to more improved timber utilization and better profit margins due to more efficient processing and reduced drying degrade. At the forefront the development of clean, high-tech microwave drying technology and equipment, that is invented in Australia, will ....High performance drying of plantation grown eucalypt timber. Forest industries generate $14 billion annually in Australia and employs 86,000 staff. Hardwood sawn timber is a value added product and microwave technology will increase returns due to more improved timber utilization and better profit margins due to more efficient processing and reduced drying degrade. At the forefront the development of clean, high-tech microwave drying technology and equipment, that is invented in Australia, will allow Australian companies to be forefront in this industrial area, to sell licences, designs, project management and equipment on international markets. This initiative will value-add plantation forests, reduce oil consumption and sequester CO2 in high value products.Read moreRead less
Nanocrystalline Processing of Polycrystalline Ceramics Exhibiting the Giant Piezoelectric Effect. Piezoelectric materials interconvert electric and mechanical energy. They have been incorporated into a wide range of industrial, medical and domestic applications. The newest, known as PZN-PTs, are only available as single crystals. They have ten times the response of conventional piezoelectric materials, however they are expensive, mechanically fragile and have shape limitations. This project will ....Nanocrystalline Processing of Polycrystalline Ceramics Exhibiting the Giant Piezoelectric Effect. Piezoelectric materials interconvert electric and mechanical energy. They have been incorporated into a wide range of industrial, medical and domestic applications. The newest, known as PZN-PTs, are only available as single crystals. They have ten times the response of conventional piezoelectric materials, however they are expensive, mechanically fragile and have shape limitations. This project will tailor nanostructured intermediate states that will allow the production of stronger, more versatile polycrystalline PZN-PT ceramics. It will develop scientific results on nanocrystalline processing applicable to many materials and allow deeper insight into the mechanism of the anomalous piezoelectric response of these materials.Read moreRead less
Structural Origins of the Giant Piezoelectric Effect in Relaxor Ferroelectrics. This project addresses fundamental questions about the origins of the Giant Piezoelectric Effect. The solution of these questions will be will raise the profile of Australian science in this area as well as allowing new directions to be explored both in modifying existing materials and seeking new ones. It will expand the pool of personnel with experience in the synthesis and diffraction based study of these material ....Structural Origins of the Giant Piezoelectric Effect in Relaxor Ferroelectrics. This project addresses fundamental questions about the origins of the Giant Piezoelectric Effect. The solution of these questions will be will raise the profile of Australian science in this area as well as allowing new directions to be explored both in modifying existing materials and seeking new ones. It will expand the pool of personnel with experience in the synthesis and diffraction based study of these materials which are slated for inclusion in large numbers of 'Smart' technologies. The training of personnel in advanced diffraction methods is important in the lead up to the new Australian research reactor OPAL in 2006 and the new Australian synchrotron in 2007.Read moreRead less
Combustion Synthesis of Ternary Carbides. Ti3SiC2 belongs to a group of ternary carbides that exhibit an exciting combination of the high temperature properties of ceramics, with the electrical and thermal conductivity of metals. A great number of potential applications have been identified, however a cost effective large scale synthesis method has been lacking. Combustion synthesis, which uses the heat of reaction as the primary energy source, has great potential for this purpose. This program ....Combustion Synthesis of Ternary Carbides. Ti3SiC2 belongs to a group of ternary carbides that exhibit an exciting combination of the high temperature properties of ceramics, with the electrical and thermal conductivity of metals. A great number of potential applications have been identified, however a cost effective large scale synthesis method has been lacking. Combustion synthesis, which uses the heat of reaction as the primary energy source, has great potential for this purpose. This program will use advanced in-situ neutron diffraction experiments to map and quantify combustion synthesis reactions in the Ti-Si-C system and related systems. The results of these studies will be used to design methods of production for Ti3SiC2 and related materials.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101030
Funder
Australian Research Council
Funding Amount
$368,446.00
Summary
Monoatomic metal doping of carbon-based nanomaterials for hydrogen storage. This project aims to present a new concept of monoatomic metal doped carbon-based nanomaterials as advanced solid-state hydrogen storage materials (S-HSMs) for hydrogen fuel cells. The key feature for this synthesis is the use of the unique “defect” structures in carbon lattice as the efficient anchoring sites to immobilise the metal species at atomic level. This project is expected to create new knowledge of atomic inte ....Monoatomic metal doping of carbon-based nanomaterials for hydrogen storage. This project aims to present a new concept of monoatomic metal doped carbon-based nanomaterials as advanced solid-state hydrogen storage materials (S-HSMs) for hydrogen fuel cells. The key feature for this synthesis is the use of the unique “defect” structures in carbon lattice as the efficient anchoring sites to immobilise the metal species at atomic level. This project is expected to create new knowledge of atomic interface catalysis and develop practical applications of S-HSMs in storage tanks for fuel cells, leading to reduction of carbon dioxide emissions and alleviation of air pollution. The success of this project will greatly enhance the Australian clean energy industries.Read moreRead less
Investigation of contaminant distribution, deposition and poisoning of cathodes of solid oxide fuel cells. The purpose of the project is to fundamentally study the poisoning process of contaminants on the performance degradation and activity of solid oxide fuel cells (SOFC) cathode and to develop contaminant-tolerant cathodes, so as to ensure the product life over five years of the BlueGen SOFC systems being developed by Ceramic Fuel Cells Ltd. in Melbourne.
Ion implantation processing in Silicon Carbide for microelectronic applications. The aim of this project is to study the application of ion implantation to silicon carbide for dopant incorporation and defect engineering. The successful dopant incorporation, especially p-type doping will be crucial for SiC high power and high frequency devices. The outcomes of the project are (a) the understanding of extended and point defect formation in silicon carbide from ion implantation. (b) detailed charac ....Ion implantation processing in Silicon Carbide for microelectronic applications. The aim of this project is to study the application of ion implantation to silicon carbide for dopant incorporation and defect engineering. The successful dopant incorporation, especially p-type doping will be crucial for SiC high power and high frequency devices. The outcomes of the project are (a) the understanding of extended and point defect formation in silicon carbide from ion implantation. (b) detailed characterisation of the extended defects formed by ion implantation (c) establishment of dose regimes for point defects and extended defect formation and (d) development of procedures for the incorporation of dopants with minimum residual defect formation.Read moreRead less