Development of a solid nitrogen cooled magnesium diboride (MgB2) magnet for persistent-mode operation. Soaring price for liquid helium has increased demand for cryogen-free superconducting magnets more than ever. If magnetic resonance imaging magnets, which represent over 50 per cent of the world superconducting markets, could be operated without liquid helium, magnetic resonance imaging would be much more affordable and enable reduced health care costs.
The development of flexible, graded plasma surface engineered coatings for superior interfacial performance. The next generation of intraocular lenses, medical devices to treat patients with cataracts, will be developed through application of advanced surface engineering technologies. These superior coated lenses will improve biocompatibility and function, leading to additional benefit for the forecasted 2.7 million Australians with cataracts by 2021.
Development of high performance III-V semiconductor photoconductive antennas for terahertz applications. The practical applications of terahertz (THz) radiation include scientific probing for material characterisation, screening for weapons, explosives and biohazards, imaging for concealed objects and medical diagnostics, chemical and biological analysis, astronomy and space research. The success of this project will lead to the creation of a new generation of high performance THz emitters/detec ....Development of high performance III-V semiconductor photoconductive antennas for terahertz applications. The practical applications of terahertz (THz) radiation include scientific probing for material characterisation, screening for weapons, explosives and biohazards, imaging for concealed objects and medical diagnostics, chemical and biological analysis, astronomy and space research. The success of this project will lead to the creation of a new generation of high performance THz emitters/detectors essential for above applications, making great contribution to the Nation in the areas of science, technology, health, security and economy.Read moreRead less
A novel approach to the design and fabrication of biomimetic and biocompatible Ti-Ta implants by additive manufacturing. A large number of the Australian population suffer various types of bone issues arising from either age-related degenerative bone problems or injuries from accidents, sports and other activities. As the number of joint replacements performed in Australia increases, it is important to reduce the rate of implant failure. This project aims to address this critical issue by combin ....A novel approach to the design and fabrication of biomimetic and biocompatible Ti-Ta implants by additive manufacturing. A large number of the Australian population suffer various types of bone issues arising from either age-related degenerative bone problems or injuries from accidents, sports and other activities. As the number of joint replacements performed in Australia increases, it is important to reduce the rate of implant failure. This project aims to address this critical issue by combining unique multi-scale structural design, alloy development, 3D printing, modelling and tissue engineering to develop bone-like biomimetic titanium implants with superior structural, mechanical and biological compatibility with bone. The outcomes aim to contribute to both healthcare and manufacturing industries, as well as improving the quality of life for Australians.Read moreRead less
Scalable and Applicable Nanostructured Adsorbents for Arsenic Removal with High Performance. Arsenic contamination in groundwater and drinking water affects over 100 million people worldwide and causes severe health problems. This project aims to use a recently patented technology to develop a new generation of adsorbents with controlled nanostructure and morphology for arsenic removal. The novel low-cost adsorbents are expected to have superior performance for the treatment of water containing ....Scalable and Applicable Nanostructured Adsorbents for Arsenic Removal with High Performance. Arsenic contamination in groundwater and drinking water affects over 100 million people worldwide and causes severe health problems. This project aims to use a recently patented technology to develop a new generation of adsorbents with controlled nanostructure and morphology for arsenic removal. The novel low-cost adsorbents are expected to have superior performance for the treatment of water containing arsenic at both high and low concentrations. The engineered products will be tested in high-throughput wastewater treatment in pharmaceutical factories and as a household drinking water treatment device. This project aims to bring economic and social benefits to Australian industry and improve the quality of life for people all over the world.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453973
Funder
Australian Research Council
Funding Amount
$696,093.00
Summary
Surface Spectroscopic and Microstructure Analysis. Funding is requested for an X-ray Photoelectron Spectrometer (XPS) and an Image Plate Guinier Camera (IPGC), to update and expand capabilities in surface spectroscopic and microstructural analysis of a wide range of materials. The XPS unit, to be located at the University of SA, will replace two 18-year old XPS units at UniSA and Flinders University. The IPGC is a new and unique instrument which will be located at the University of Adelaide. The ....Surface Spectroscopic and Microstructure Analysis. Funding is requested for an X-ray Photoelectron Spectrometer (XPS) and an Image Plate Guinier Camera (IPGC), to update and expand capabilities in surface spectroscopic and microstructural analysis of a wide range of materials. The XPS unit, to be located at the University of SA, will replace two 18-year old XPS units at UniSA and Flinders University. The IPGC is a new and unique instrument which will be located at the University of Adelaide. These items will be incorporated into the SA Regional Facility, which provides seamless access to instrumentation across nodes. Applications include materials science, geological and biological research projects.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101359
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
Hierarchical 3D metal organic frameworks for the microfabrication of advanced biomedical devices. This project will produce three-dimensional porous structures for use in sensing devices and biomedical implants. Metal-organic frameworks (MOFs) are versatile ultra high surface area materials with controllable pore size, chemical properties and functionalisation. These new materials will be incorporated into portable biosensing devices which are highly sensitive and reliable. The project involves ....Hierarchical 3D metal organic frameworks for the microfabrication of advanced biomedical devices. This project will produce three-dimensional porous structures for use in sensing devices and biomedical implants. Metal-organic frameworks (MOFs) are versatile ultra high surface area materials with controllable pore size, chemical properties and functionalisation. These new materials will be incorporated into portable biosensing devices which are highly sensitive and reliable. The project involves three streams including preparation of the three-dimensional metal scaffolds utilizing state-of-the-art direct manufacturing technologies; integration of MOFs on the three-dimensional metal scaffolds using the metallic structure as the source of the MOF metal ions; and incorporation of bio-active molecules into the three-dimensional hierarchically porous structure for the purpose of bio-device fabrication.Read moreRead less
Zirconium alloying and grain refinement of magnesium alloys with ZirCAST. Zirconium alloying and grain refinement is a key issue restricting the commercial production of value-added zirconium-containing magnesium alloys for use in the automotive industry. This 3-year linkage program builds on the applicants' invention of a proprietary grain refiner ZirCAST, and is undertaken to investigate the major fundamental aspects of zirconium alloying and grain refinement with ZirCAST. In addition to an ex ....Zirconium alloying and grain refinement of magnesium alloys with ZirCAST. Zirconium alloying and grain refinement is a key issue restricting the commercial production of value-added zirconium-containing magnesium alloys for use in the automotive industry. This 3-year linkage program builds on the applicants' invention of a proprietary grain refiner ZirCAST, and is undertaken to investigate the major fundamental aspects of zirconium alloying and grain refinement with ZirCAST. In addition to an excellent postgraduate training environment, it aims to provide and develop, in partnership with industry, optimum zirconium alloying and grain refinement technology with ZirCAST and enhance Australia's leading global position in this strategically and commercially important area.Read moreRead less
Unravelling mechanisms in plasma growth of polymers. Surface engineering broadens the breadth of applications for many materials, and enhances the performance and value of current and emerging technologies. Surface engineering is particularly important to maintaining the competitiveness of manufacturing in developed economies such as Australia, that can not compete on a cost basis with emerging economies. Plasma coating replaces (alternative) environmentally-questionable surface treatments. This ....Unravelling mechanisms in plasma growth of polymers. Surface engineering broadens the breadth of applications for many materials, and enhances the performance and value of current and emerging technologies. Surface engineering is particularly important to maintaining the competitiveness of manufacturing in developed economies such as Australia, that can not compete on a cost basis with emerging economies. Plasma coating replaces (alternative) environmentally-questionable surface treatments. This project enhances Australian competitiveness; it cuts across industrial sectors and will deliver the new knowledge required to enhance material/technology functionality/performance. A PhD student will receive a multi-disciplinary training in a frontier technology and advanced analytical tools.Read moreRead less
Self-assembly and complexity: networks and patterns from materials to markets. Self-assembly leads the formation of patterns without external directing agents. It is responsible for the growth of complex multiscale structures found in biology and materials science and is a crucial concept for development of viable nanotechnologies. Complex systems, from biological ecosystems to financial markets and the Internet, are also characterized by spontaneous clustering and linkages that determine their ....Self-assembly and complexity: networks and patterns from materials to markets. Self-assembly leads the formation of patterns without external directing agents. It is responsible for the growth of complex multiscale structures found in biology and materials science and is a crucial concept for development of viable nanotechnologies. Complex systems, from biological ecosystems to financial markets and the Internet, are also characterized by spontaneous clustering and linkages that determine their collective behaviour. The project will investigate in detail the geometry, topology, materials science and statistical physics of networks, leading to design and characterization of robust self-assembled materials and complex systems.Read moreRead less