Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347962
Funder
Australian Research Council
Funding Amount
$218,000.00
Summary
Adelaide Mass Spectrometry and Analysis Facility. This joint proposal by two South Australian universities and the Hanson Institute seeks to establish a facility for rapid characterisation and identification of biomolecules by means of MALDI-TOF and Nano LC mass spectrometry. The requested equipment is not available in South Australia. This proposal would establish a Nano LC (Q-TOF) node at the University of Adelaide-University of South Australia location and a MALDI-TOF node at the Flinders loc ....Adelaide Mass Spectrometry and Analysis Facility. This joint proposal by two South Australian universities and the Hanson Institute seeks to establish a facility for rapid characterisation and identification of biomolecules by means of MALDI-TOF and Nano LC mass spectrometry. The requested equipment is not available in South Australia. This proposal would establish a Nano LC (Q-TOF) node at the University of Adelaide-University of South Australia location and a MALDI-TOF node at the Flinders location. Its presence would greatly enhance the quality of research and teaching in priority areas such as proteomics, bioinformatics and nanotechnology and would provide a basis for fostering university and biotechnology industry collaborations.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0239035
Funder
Australian Research Council
Funding Amount
$900,000.00
Summary
Regional facility for surface and micro-structure analysis. Adelaide, Flinders and SA Universities seek to enhance the regional facility for surface and microstructure analysis. Equipment includes electron back scatter pattern imaging, high resolution coater, microprobe (CAMECA SX51) upgrade and X ray microtomography to be located at Adelaide University Centre for Electron Microscopy and Microstructure Analysis, the hub of the regional facility. The University of South Australia Ian Wark Researc ....Regional facility for surface and micro-structure analysis. Adelaide, Flinders and SA Universities seek to enhance the regional facility for surface and microstructure analysis. Equipment includes electron back scatter pattern imaging, high resolution coater, microprobe (CAMECA SX51) upgrade and X ray microtomography to be located at Adelaide University Centre for Electron Microscopy and Microstructure Analysis, the hub of the regional facility. The University of South Australia Ian Wark Research Institute node will house ToF-SIMS and SAM upgrades, the Flinders node a multimode STM atomic force microscope, and the Adelaide University Waite Campus node confocal xyz control and digital camera. Applications include biological, materials and geological research projects.Read moreRead less
Mathematical and mechanical models in nano-engineering and nanomedicine. The major environmental problems generated from global warming and the major human health problems, like cancer and diabetes, if they are to be solved at all, will most likely be resolved making use of advances in nanobiotechnology. This proposal will position Australia as a leader in the modelling of nanodevices such as gigahertz oscillators, nano-electromagnets, nanosensors, nanosyringes and nanoporous media suitable for ....Mathematical and mechanical models in nano-engineering and nanomedicine. The major environmental problems generated from global warming and the major human health problems, like cancer and diabetes, if they are to be solved at all, will most likely be resolved making use of advances in nanobiotechnology. This proposal will position Australia as a leader in the modelling of nanodevices such as gigahertz oscillators, nano-electromagnets, nanosensors, nanosyringes and nanoporous media suitable for hydrogen storage and gas separation, which will lead to new technologies and commercial spin-offs that will be of major benefit to this country. The applicants will develop a range of topics in nano-engineering and nanomedicine, training a team that will provide the next generation of researchers in these vital areas.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883111
Funder
Australian Research Council
Funding Amount
$570,000.00
Summary
A Laser Facility for Imaging the Time Evolution of Scalars in Turbulent Flows. Establishing this facility will maintain Australia's position at the international leading edge of research in energy, the environment, combustion, and fluid mechanics. The new diagnostics capabilities will advance science through projects that serve the first National Research Priority and assist industry in the design and development of clean combustion devices and energy efficient technologies. The new facility wil ....A Laser Facility for Imaging the Time Evolution of Scalars in Turbulent Flows. Establishing this facility will maintain Australia's position at the international leading edge of research in energy, the environment, combustion, and fluid mechanics. The new diagnostics capabilities will advance science through projects that serve the first National Research Priority and assist industry in the design and development of clean combustion devices and energy efficient technologies. The new facility will also be made available to researchers from non-participating institutions at operating costs and will provide the training platform for graduates from all Australian Universities. This will ensure the continuity of future research and developments in these and related fields in Australia.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
Modelling of multiscale systems in engineering and science supports large-scale equation-free simulations and analysis. A persistent feature of complex systems in engineering and science is the emergence of macroscopic, coarse grained, coherent behaviour from the interactions of microscopic agents (molecules, cells) and with their environment. In current modeling, ranging from ecology to materials science, the underlying microscopic mechanisms are known, but the closures to translate microscale ....Modelling of multiscale systems in engineering and science supports large-scale equation-free simulations and analysis. A persistent feature of complex systems in engineering and science is the emergence of macroscopic, coarse grained, coherent behaviour from the interactions of microscopic agents (molecules, cells) and with their environment. In current modeling, ranging from ecology to materials science, the underlying microscopic mechanisms are known, but the closures to translate microscale knowledge to a system level macroscopic description are rarely available in closed form. Our novel, equation free, computational methodologies will circumvent this stumbling block, and promises to radically change the modeling, exploration and understanding of complex system behavior. We continue to develop this powerful computational methodology. Read moreRead less
Studies of metal compounds containing carbon chains - approaches to novel materials. There is an increasing need to design functional devices on the molecular scale ("nanotechnology"). We are developing the chemistry of compounds which contain chains of up to 12 carbon atoms to allow electronic communication between metal centres attached to each end. This projects seeks to extend this work, to discover new and more effective compounds, and to develop the associated chemistry to provide synthese ....Studies of metal compounds containing carbon chains - approaches to novel materials. There is an increasing need to design functional devices on the molecular scale ("nanotechnology"). We are developing the chemistry of compounds which contain chains of up to 12 carbon atoms to allow electronic communication between metal centres attached to each end. This projects seeks to extend this work, to discover new and more effective compounds, and to develop the associated chemistry to provide syntheses of novel compounds of potential use in the fine chemicals industry. Extensive collaboration with French colleagues exists and will continue.Read moreRead less
All-carbon molecules in metal complexes - novel materials and intermediates. An important requirement for the future is new materials with unusual properties that can be controlled. The need for ever smaller electronic devices requires knowledge about appropriate properties (particularly electronic) of molecules designed to model devices such as wires, switches, etc. This work seeks to design, measure and evaluate such molecules, which are based on chains of carbon atoms linking metal centres ....All-carbon molecules in metal complexes - novel materials and intermediates. An important requirement for the future is new materials with unusual properties that can be controlled. The need for ever smaller electronic devices requires knowledge about appropriate properties (particularly electronic) of molecules designed to model devices such as wires, switches, etc. This work seeks to design, measure and evaluate such molecules, which are based on chains of carbon atoms linking metal centres which can gain or lose electrons readily. As the electronic structure changes, so do the physical (photo, solid-state) and chemical properties (reactivity). Improved understanding of these features will benefit development of advanced technology and new materials.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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346515
Funder
Australian Research Council
Funding Amount
$507,000.00
Summary
Fluorescence Detector for the Australian National Beamline Facility. X-ray absorption spectroscopy (XAS) is an extremely important synchrotron radiation tool for determining the local structure around an X-ray absorbing atom. This has many applications in the study of materials, minerals, metal complexes, and metalloproteins and can often be used to obtain information that is not available by other techniques, because structural information can be obtained in the solid or solution state and in ....Fluorescence Detector for the Australian National Beamline Facility. X-ray absorption spectroscopy (XAS) is an extremely important synchrotron radiation tool for determining the local structure around an X-ray absorbing atom. This has many applications in the study of materials, minerals, metal complexes, and metalloproteins and can often be used to obtain information that is not available by other techniques, because structural information can be obtained in the solid or solution state and in mixtures. The current proposal is aimed at introducing new technology into the Australian National Beamline Facility that will greatly improve the quality and quantity of experiments that can be performed and extend studies into dilute solutions and protein samples.Read moreRead less