Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989492
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Dynamic Texture Measurement Facility. A texture goniometer is an advanced tool for texture characterisation of steels, light alloys, nanomaterials, superconductors and minerals. The ability to conduct dynamic texture measurements will significantly enhance the effectiveness of four material-based research institutes at the University of Wollongong and at Deakin University, as well as collaborative research with BlueScope Steel. The research is directly aligned to the National Research Priority o ....Dynamic Texture Measurement Facility. A texture goniometer is an advanced tool for texture characterisation of steels, light alloys, nanomaterials, superconductors and minerals. The ability to conduct dynamic texture measurements will significantly enhance the effectiveness of four material-based research institutes at the University of Wollongong and at Deakin University, as well as collaborative research with BlueScope Steel. The research is directly aligned to the National Research Priority of Frontier Technologies for Building and Transforming Australian Industry. The equipment will provide a valuable resource for industries in the Illawarra region of NSW and in regional South-West Victoria.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668322
Funder
Australian Research Council
Funding Amount
$147,000.00
Summary
Enhancing Australia's Terahertz Infrastructure. Anthrax, explosives, water, cancer all have characteristic signatures in the terahertz (THz) part of the electromagnetic spectrum. Security, defence, agriculture, medicine are a few of the fields where THz science and technology are booming. THz developments offer enhanced national security, prosperity and quality of life. Australia has active researchers in THz concentrated at several centres across the country, but they are hampered by their work ....Enhancing Australia's Terahertz Infrastructure. Anthrax, explosives, water, cancer all have characteristic signatures in the terahertz (THz) part of the electromagnetic spectrum. Security, defence, agriculture, medicine are a few of the fields where THz science and technology are booming. THz developments offer enhanced national security, prosperity and quality of life. Australia has active researchers in THz concentrated at several centres across the country, but they are hampered by their work by lack of access to state-of-the art experimental equipment. This project will provide that equipment and ensure the nation remains internationally competitive in this rapidly-developing field.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237478
Funder
Australian Research Council
Funding Amount
$580,000.00
Summary
A 200 keV Analytical Transmission Electron Microscope. Analytical transmission electron microscopy is one of the most powerful techniques available for investigating and characterising the fine structures, compositions and crystallographic features of geological, biological and engineering materials. It is an essential tool in the arsenal of characterisation equipment for any organisation involved in high quality research and development of materials. The Illawarra region of NSW currently lacks ....A 200 keV Analytical Transmission Electron Microscope. Analytical transmission electron microscopy is one of the most powerful techniques available for investigating and characterising the fine structures, compositions and crystallographic features of geological, biological and engineering materials. It is an essential tool in the arsenal of characterisation equipment for any organisation involved in high quality research and development of materials. The Illawarra region of NSW currently lacks a modern analytical transmission electron microscope to support a wide range of internationally competitive materials research. The aim of this application is to correct this deficiency.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882613
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
An analytical field emission gun scanning electron microscope. An analytical field emission gun scanning electron microscope is an advanced tool for the characterisation of alloys, nanomaterials, superconductors and polymers. The instrument's advanced characterisation capabilities will significantly enhance the effectiveness of three material-based research institutes and an ARC Centre of Excellence at the University of Wollongong, as well as collaborative research with BlueScope Steel. The rese ....An analytical field emission gun scanning electron microscope. An analytical field emission gun scanning electron microscope is an advanced tool for the characterisation of alloys, nanomaterials, superconductors and polymers. The instrument's advanced characterisation capabilities will significantly enhance the effectiveness of three material-based research institutes and an ARC Centre of Excellence at the University of Wollongong, as well as collaborative research with BlueScope Steel. The research is directly aligned to the National Research Priority of Frontier Technologies for Building and Transforming Australian Industry. The equipment will provide a valuable resource for industries in the Illawarra region of NSW.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989541
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
High Field Solid State and Multinuclear NMR Spectrometer for Structure/Function Analysis of Materials. Projects requiring the proposed infrastructure are aligned with two of the National Research Priorities. The research will lead to the development of novel materials, polymers and drugs, in particular nanoporous molecular frameworks, as well as reactive catalysts. The understanding of protein structure, disease and metabolic pathways which will be established using the proposed equipment will c ....High Field Solid State and Multinuclear NMR Spectrometer for Structure/Function Analysis of Materials. Projects requiring the proposed infrastructure are aligned with two of the National Research Priorities. The research will lead to the development of novel materials, polymers and drugs, in particular nanoporous molecular frameworks, as well as reactive catalysts. The understanding of protein structure, disease and metabolic pathways which will be established using the proposed equipment will contribute to the priority area 'Promoting and Maintaining Good Health'. In addition, the new equipment will extend capabilities and postgraduate training in chemistry, nanotechnology, and biomedicine (the priority area of 'Frontier Technologies for Building and Transforming Australian Industries').Read moreRead less
Measuring the linewidth enhancement factor and optical feedback level factor of semiconductor lasers based on optical feedback self-mixing interferometry. This project aims to develop a high performance solution for the challenging problem of measuring the linewidth enhancement factor (LEF) of semiconductor lasers (SLs) and the optical feedback level factor, C, for the optical feedback self-mixing (OFSM) systems. Specific outcomes of the research include (1) a new model for an optical feedback ....Measuring the linewidth enhancement factor and optical feedback level factor of semiconductor lasers based on optical feedback self-mixing interferometry. This project aims to develop a high performance solution for the challenging problem of measuring the linewidth enhancement factor (LEF) of semiconductor lasers (SLs) and the optical feedback level factor, C, for the optical feedback self-mixing (OFSM) systems. Specific outcomes of the research include (1) a new model for an optical feedback self-mixing effect, (2) a new approach for measuring LEF and C based on the proposed model, (3) signal processing algorithms for improving the performance of the proposed approach, and (4) an OFSM system prototype based on the new model and algorithms.Read moreRead less
The Science of Exoplanets - Finding & Understanding our Planetary Neighbours. There can be few questions more fundamental to humanity, and more capable of engaging young Australians in science and technology, than to ask "Are we alone in the Universe?". The discovery of planetary systems orbiting other stars now enables us to realistically address this fundamental question in the years ahead. A critical component of this global endeavour will be determining 'How common are Earth-like planets orb ....The Science of Exoplanets - Finding & Understanding our Planetary Neighbours. There can be few questions more fundamental to humanity, and more capable of engaging young Australians in science and technology, than to ask "Are we alone in the Universe?". The discovery of planetary systems orbiting other stars now enables us to realistically address this fundamental question in the years ahead. A critical component of this global endeavour will be determining 'How common are Earth-like planets orbiting nearby stars?'. This project will establish the nation's leading research group in this field and employ the world's leading astronomical facilities to place Australia at the forefront of the international race to answer these fundamental questions. Read moreRead less
Astrophotonics: exploiting a new technological frontier to probe back to the Dark Ages. Photonics, a key research strength in Australia, emerged from the telecommunications industry. But this exciting field has now begun to foster new scientific disciplines. One of the most recent is astrophotonics, a field at the interface of photonics and another Australian research strength, astronomy. Astrophotonics will deliver cutting-edge technologies to ensure Australia's astronomical lead in the next de ....Astrophotonics: exploiting a new technological frontier to probe back to the Dark Ages. Photonics, a key research strength in Australia, emerged from the telecommunications industry. But this exciting field has now begun to foster new scientific disciplines. One of the most recent is astrophotonics, a field at the interface of photonics and another Australian research strength, astronomy. Astrophotonics will deliver cutting-edge technologies to ensure Australia's astronomical lead in the next decade. These new facilities will serve as a vital stepping stone to the Giant Magellan Telescope, a $500M project promising enormous economic, engineering and scientific opportunities for Australia. Astrophotonics will also lead to innovative technology transfer to fields such as medical science, optical computing and sensor technology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453320
Funder
Australian Research Council
Funding Amount
$347,886.00
Summary
Advanced Spectroscopy for Nano-characterisation of Materials Chemistry and Properties. This application proposes to establish a cutting-edge spectroscopic facility which includes; electron energy-loss spectroscopy (EELS), energy-dispersive X-ray spectroscopy (EDS), cathodoluminescence (CL), photoluminescence (PL) and micro-Raman spectroscopy. Each of the spectrometers to be installed has significantly higher sensitivity and resolution than any other facility available in Australia and is capable ....Advanced Spectroscopy for Nano-characterisation of Materials Chemistry and Properties. This application proposes to establish a cutting-edge spectroscopic facility which includes; electron energy-loss spectroscopy (EELS), energy-dispersive X-ray spectroscopy (EDS), cathodoluminescence (CL), photoluminescence (PL) and micro-Raman spectroscopy. Each of the spectrometers to be installed has significantly higher sensitivity and resolution than any other facility available in Australia and is capable of full spectrum imaging. This new spectroscopic infrastructure will enable the knowledge-based development of new materials by allowing complete characterisation of structure-composition-property relationships at the nanometre level.Read moreRead less
Separating Subtle Interplay between Competing/Cooperating Superconductivity and Magnetism in YBa2Cu3O7-x with Nanotechnology. Superconducting cables can carry 100 to 200 times more electric current than conventional cables. The innovations in this program could enable the widespread commercialization of more efficient types of power generation, transmission, and electrical equipment and devices, offering tremendous energy savings and emissions reductions. It is estimated that ~A$400 million pe ....Separating Subtle Interplay between Competing/Cooperating Superconductivity and Magnetism in YBa2Cu3O7-x with Nanotechnology. Superconducting cables can carry 100 to 200 times more electric current than conventional cables. The innovations in this program could enable the widespread commercialization of more efficient types of power generation, transmission, and electrical equipment and devices, offering tremendous energy savings and emissions reductions. It is estimated that ~A$400 million per year can be saved if high-Tc superconducting wires and cables were to replace conventional metallic conductors. The success of this program will greatly increase scientific understanding of hig-Tc superconductivity and expand Australia's knowledge in the research on high-Tc superconductors. The training will also provide scientific talents to the country.Read moreRead less