Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100121
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
An analytical transmission electron microscope for the investigation of functional materials, earth processes and novel condensed matter. Sustainablity depends on the delivery of clean energy, pristine water and air, and the manufacture of consumer products with small environmental footprints. Modelling long-term impacts requires an understanding of the hydro-geological cycles. The technologies are well known—efficient electronics, fuel cells, lightweight composites, and so on—but delivery is ....An analytical transmission electron microscope for the investigation of functional materials, earth processes and novel condensed matter. Sustainablity depends on the delivery of clean energy, pristine water and air, and the manufacture of consumer products with small environmental footprints. Modelling long-term impacts requires an understanding of the hydro-geological cycles. The technologies are well known—efficient electronics, fuel cells, lightweight composites, and so on—but delivery is not straightforward. It is clear, however, that novel materials manipulated at fine scales will be key. Transmission electron microscopy (TEM) guides the development of sustainable technologies. The new TEM facility at ANU will accelerate current studies, by enhancing the materials research portfolio, and extending national and international collaborations in materials, geological and earth sciences.Read moreRead less
Mineral Physics of the Earth's Core. Most information on the nature of Earth's core properties has come from teleseismic studies, which detect weak earthquake-wave signals that have traversed the Earth's deepest interior. These studies have revealed several unusual and enigmatic phenomena in the core, but interpretation of these observations must rely on mineral-physics data on the materials of the core (e.g. iron-based alloys). This project will create a unique world-class ultra-high pressure l ....Mineral Physics of the Earth's Core. Most information on the nature of Earth's core properties has come from teleseismic studies, which detect weak earthquake-wave signals that have traversed the Earth's deepest interior. These studies have revealed several unusual and enigmatic phenomena in the core, but interpretation of these observations must rely on mineral-physics data on the materials of the core (e.g. iron-based alloys). This project will create a unique world-class ultra-high pressure laboratory to obtain such data. By defining the composition and mineralogy of Earth's core, it will place Australia in the forefront of this exciting research field, and will also represent a major national resource for the study of novel materials at extreme conditions.Read moreRead less
UNDERSTANDING PHASE TRANSITIONS THROUGH PRECISE STRUCTURAL STUDIES. This project will examine the fundamental nature of the structural phase transitions that are critical for the utilisation of numerous advanced materials. Researchers at Sydney University and the Australian National University in collaboration with staff at ANSTO are world leaders in the structural analysis of such materials. Through comprehensive experimental and theoretical studies of a number of such materials this project w ....UNDERSTANDING PHASE TRANSITIONS THROUGH PRECISE STRUCTURAL STUDIES. This project will examine the fundamental nature of the structural phase transitions that are critical for the utilisation of numerous advanced materials. Researchers at Sydney University and the Australian National University in collaboration with staff at ANSTO are world leaders in the structural analysis of such materials. Through comprehensive experimental and theoretical studies of a number of such materials this project will enhance the ability of industry to develop new and improved materials.Read moreRead less
A virtual exploration of iron-sulphur-world in search of the precursors to life on earth. The greenhouse gas, carbon dioxide, that currently presents a threat to the continued existence of humanity, ironically represents the starting point from which life on Earth probably originated. This research will probe the chemistry of how this gas, dissolved in ancient oceans, came to be converted to molecules that form the basis of living organisms through interaction with minerals, such as iron sulphid ....A virtual exploration of iron-sulphur-world in search of the precursors to life on earth. The greenhouse gas, carbon dioxide, that currently presents a threat to the continued existence of humanity, ironically represents the starting point from which life on Earth probably originated. This research will probe the chemistry of how this gas, dissolved in ancient oceans, came to be converted to molecules that form the basis of living organisms through interaction with minerals, such as iron sulphide. Aside from answering a fundamental question, it will offer insights into processes that convert a pollutant into a useful chemical, as well as what might happen if carbon dioxide is placed in mineral deposits for long-term storage.Read moreRead less
Special Research Initiatives - Grant ID: SR0354591
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
New Techniques using X-rays, Electrons and Quantum Optics in Physics & Chemistry and key developments for biomedicine & industry. This network will develop theoretical, experimental and computational techniques addressing key issues in physics, chemistry, biology and geosciences. Scope will be wide-ranging and inclusive. We anticipate making major developments in the design and understanding of absolute X-ray Absorption Fine Structure, X-ray, Neutron and Electron Diffraction, Electron Density Ma ....New Techniques using X-rays, Electrons and Quantum Optics in Physics & Chemistry and key developments for biomedicine & industry. This network will develop theoretical, experimental and computational techniques addressing key issues in physics, chemistry, biology and geosciences. Scope will be wide-ranging and inclusive. We anticipate making major developments in the design and understanding of absolute X-ray Absorption Fine Structure, X-ray, Neutron and Electron Diffraction, Electron Density Mapping, Molecular and Cluster computations and Powder Diffraction for fundamental research, biomedical and industrial applications. These breakthroughs will be invaluable for the development of Australia's major research infrastructure (the synchrotron, electron microscopes, and the research reactor). This will develop Australian expertise and collaboration at the cutting edge of a variety of interdisciplinary fields.Read moreRead less
A dynamic pore-network model for fluid displacements in porous media. The project will have a major impact on the up-stream oil and gas industry nationally and worldwide. It will allow data crucial to the development and optimization of oil and gas fields to be obtained from reservoir fragments and unconsolidated core, greatly reducing the levels of uncertainty associated with field developments. This has great commercial and strategic significance for Australia, where future potential reserve ....A dynamic pore-network model for fluid displacements in porous media. The project will have a major impact on the up-stream oil and gas industry nationally and worldwide. It will allow data crucial to the development and optimization of oil and gas fields to be obtained from reservoir fragments and unconsolidated core, greatly reducing the levels of uncertainty associated with field developments. This has great commercial and strategic significance for Australia, where future potential reserves are located in remote offshore deep water areas where technological uncertainties are a major obstacle to timely development.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668467
Funder
Australian Research Council
Funding Amount
$620,000.00
Summary
A large memory, high performance computing system for the ac3 Research Consortium. The installation of this new supercomputing facility is an important addition to the nation's foundation research infrastructure, and a further key system in the national computational grid. Of particular importance to research groups in NSW is the much needed boost in computational research and research training capacity that it will provide, enabling world leading research teams to continue their ground breakin ....A large memory, high performance computing system for the ac3 Research Consortium. The installation of this new supercomputing facility is an important addition to the nation's foundation research infrastructure, and a further key system in the national computational grid. Of particular importance to research groups in NSW is the much needed boost in computational research and research training capacity that it will provide, enabling world leading research teams to continue their ground breaking work in what is an increasingly competitive international environment. Much of the research to be supported lies in areas of national priority, including frontier technologies and Australian environmental sustainability.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989506
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
A high performance computing cluster and storage for the INTERSECT Consortium of NSW. The installation of this new supercomputing facility is an important addition to the nation's foundation research infrastructure. Of particular importance to research groups in NSW is the much needed boost in computational research and research training capacity that it will provide, enabling world leading research teams to continue their ground breaking work in an increasingly competitive international enviro ....A high performance computing cluster and storage for the INTERSECT Consortium of NSW. The installation of this new supercomputing facility is an important addition to the nation's foundation research infrastructure. Of particular importance to research groups in NSW is the much needed boost in computational research and research training capacity that it will provide, enabling world leading research teams to continue their ground breaking work in an increasingly competitive international environment. Much of the research to be supported lies in areas of national priority, including frontier technologies and Australian environmental sustainability.Read moreRead less