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
Novel Carbon Coatings for Exceptional Performance. Carbon coatings are technologically important and have many applications in automotive and biomedical industries worldwide. An example automotive application is as a coating for high performance fuel injectors. Carbon coatings have significant unrealised potential for applications in hostile environments such as those encountered in high performance engineering components and in the human body. This project will develop new types of carbon coat ....Novel Carbon Coatings for Exceptional Performance. Carbon coatings are technologically important and have many applications in automotive and biomedical industries worldwide. An example automotive application is as a coating for high performance fuel injectors. Carbon coatings have significant unrealised potential for applications in hostile environments such as those encountered in high performance engineering components and in the human body. This project will develop new types of carbon coatings with properties and performance tailored to applications in biomedical engineering, energy conversion, automotive engineering, manufacturing and microelectronics. The result will be a range of new carbon coatings with exceptional properties and cost-effective synthesis methods.Read moreRead less
Smart Materials Between Two and Three Dimensions. Shape-memory alloys involving martensitic transformations, are important as smart materials. Both the transformation nucleation and the sample morphology are unsolved issues relevant for these applications. Of particular note are the softening of certain lattice-vibrational frequencies, the development of a tweed-like microstructure on cooling the material and the role of defects, particularly the sample surface, in the transformation process. ....Smart Materials Between Two and Three Dimensions. Shape-memory alloys involving martensitic transformations, are important as smart materials. Both the transformation nucleation and the sample morphology are unsolved issues relevant for these applications. Of particular note are the softening of certain lattice-vibrational frequencies, the development of a tweed-like microstructure on cooling the material and the role of defects, particularly the sample surface, in the transformation process. This project addresses these issues using model materials in thin-film and bulk-crystal forms. Capacitance dilatometry, optical, electron and scanning-probe microscopies, and x-ray techniques, will unlock an understanding of the physical and metallurgical conditions controlling these transformations.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100001
Funder
Australian Research Council
Funding Amount
$410,000.00
Summary
Collaborative advanced spectroscopy facility for materials and devices. Collaborative advanced spectroscopy facility for materials and devices: This project aims to enable advancements in electronics, photonics, biomedicine, and sensing through a collaborative, open access facility for advanced optical and chemical spectroscopy of thin films, materials, and devices. The intended capabilities include high-speed, precise and state-of-the-art spectroscopy tools which enable in situ characterisation ....Collaborative advanced spectroscopy facility for materials and devices. Collaborative advanced spectroscopy facility for materials and devices: This project aims to enable advancements in electronics, photonics, biomedicine, and sensing through a collaborative, open access facility for advanced optical and chemical spectroscopy of thin films, materials, and devices. The intended capabilities include high-speed, precise and state-of-the-art spectroscopy tools which enable in situ characterisation at sub-micron scales and cryogenic temperatures, under bio-simulated environments, down to single pixel resolution, with parallel imaging and spectroscopy, and of fluids and biomaterials. The instrumentation will include cryogenic sub-micron photoluminescence and micro-Raman spectroscopy, single pixel optical and dark field spectroscopy, continuous wave terahertz time-domain spectroscopy, wide wavelength microscopic spectroscopy, and temperature-jump kinetics spectroscopy. It is expected that these complementary instruments will accelerate research in materials and devices for plasmonics, nanoelectronics, biomedicine, biochemistry, security, and forensic science.Read moreRead less
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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0238381
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
High Sensitivity Broad Range Digitised Electron Microscopy. To install in a central location at Monash University a digital image plate reader and appropriate recording hardware and software as a multi-user facility for high-resolution electron imaging and diffraction. Imaging plates are, in appearance, like photographic film and are used in the electron microscope in the same way. They are, however, nearly a hundred times more sensitive, have a range a hundred thousand times greater, and, when ....High Sensitivity Broad Range Digitised Electron Microscopy. To install in a central location at Monash University a digital image plate reader and appropriate recording hardware and software as a multi-user facility for high-resolution electron imaging and diffraction. Imaging plates are, in appearance, like photographic film and are used in the electron microscope in the same way. They are, however, nearly a hundred times more sensitive, have a range a hundred thousand times greater, and, when interrogated by a reader, generate a digitised output and can then be used again. We propose to exploit those characteristics in the study of advanced materials, in the investigation of phases changes, and in the characterisation of materials not sufficiently stable in the electron beam to observe by more conventional methods.Read moreRead less
Synthesis and Optimisation of Ultra-Thin Metal Oxide Coatings. Metal oxides are a rich class of materials in terms of their electronic, optical and chemical properties. The emergence of nanotechnology has renewed the drive for miniaturisation and given new urgency to the synthesis of ultra-thin metal oxide films for use in new electronic devices, sensors and functional coatings. This project will generate valuable intellectual property in the form of optimised ultra-thin metal oxide coatings wit ....Synthesis and Optimisation of Ultra-Thin Metal Oxide Coatings. Metal oxides are a rich class of materials in terms of their electronic, optical and chemical properties. The emergence of nanotechnology has renewed the drive for miniaturisation and given new urgency to the synthesis of ultra-thin metal oxide films for use in new electronic devices, sensors and functional coatings. This project will generate valuable intellectual property in the form of optimised ultra-thin metal oxide coatings with properties tailored to meet this rapidly growing set of new applications. The innovative combination of advanced plasma synthesis, high resolution microscopy and accurate theoretical modelling will ensure success. Read moreRead less
Graphene based nanostructures for high performance devices. Graphene sheets are the building blocks of graphite and a huge variety of carbon based nanostructures. Stacked graphene sheets have the unique property of the highest known thermal conductivity. By manipulating graphene sheets into three-dimensional channels and interconnects, vastly increased heat fluxes can be extracted from sensitive nanoscale devices such as microprocessors and micro electro mechanical systems. The potential of stac ....Graphene based nanostructures for high performance devices. Graphene sheets are the building blocks of graphite and a huge variety of carbon based nanostructures. Stacked graphene sheets have the unique property of the highest known thermal conductivity. By manipulating graphene sheets into three-dimensional channels and interconnects, vastly increased heat fluxes can be extracted from sensitive nanoscale devices such as microprocessors and micro electro mechanical systems. The potential of stacks of graphene as electrical contacts and interconnects will also be explored. By combining thermal and electrical functions, graphene will allow more efficient use of the valuable space on future devices. The outcome will be more efficient nanoscale devices to meet ever increasing performance demands.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453426
Funder
Australian Research Council
Funding Amount
$235,000.00
Summary
Access for Australian Researchers to Advanced Neutron Beam Techniques. Neutron scattering is one of the most powerful and important investigative tools in the study of materials. Australia has only a low-flux neutron source, HIFAR, which provides no cold or hot neutrons. This excludes large, important areas of science, such as functional films, polymers, self-assembly systems, biological materials, colloids and emulsions, and real-time in-situ studies.
This application aims to continue Australi ....Access for Australian Researchers to Advanced Neutron Beam Techniques. Neutron scattering is one of the most powerful and important investigative tools in the study of materials. Australia has only a low-flux neutron source, HIFAR, which provides no cold or hot neutrons. This excludes large, important areas of science, such as functional films, polymers, self-assembly systems, biological materials, colloids and emulsions, and real-time in-situ studies.
This application aims to continue Australia's partnership with the world's most intense neutron source, ISIS in the UK, in order to sustain the considerable Australian scientific momentum which now relies on ISIS.
The outcomes will be new science that cannot be generated solely within Australia.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882725
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
Access for Australian Researchers to Advanced Neutron Beam Techniques. The major national benefit will be access, by peer review, to the 35 specialised instruments at the world's leading pulsed Neutron and Muon source, ISIS. This complements the access to the eight neutron instruments that will operate at the Australian Reactor OPAL. This will support (or enable) high quality research into areas as diverse as materials development, mineral processing and aspects of biological and medical scien ....Access for Australian Researchers to Advanced Neutron Beam Techniques. The major national benefit will be access, by peer review, to the 35 specialised instruments at the world's leading pulsed Neutron and Muon source, ISIS. This complements the access to the eight neutron instruments that will operate at the Australian Reactor OPAL. This will support (or enable) high quality research into areas as diverse as materials development, mineral processing and aspects of biological and medical science. It will facilitate international collaborations that are important for both research and post-graduate student training.Read moreRead less