Torres Strait Islander History: Sport, Culture and Identity. This project aims to investigate sport as a means of understanding the cultures, identities and history of Torres Strait Islanders. Through a community-centred approach, and a project team including Torres Strait Islanders, the project challenges versions of Australian history that marginalise the Strait or conflate Islanders with Aboriginal people. Expected outcomes of this project include a more nuanced history of Indigenous Australi ....Torres Strait Islander History: Sport, Culture and Identity. This project aims to investigate sport as a means of understanding the cultures, identities and history of Torres Strait Islanders. Through a community-centred approach, and a project team including Torres Strait Islanders, the project challenges versions of Australian history that marginalise the Strait or conflate Islanders with Aboriginal people. Expected outcomes of this project include a more nuanced history of Indigenous Australia, a significant body of repatriated resources on Islander sport and increased involvement of Islander communities in the history-making process. Anticipated benefits include a multifaceted contribution to reconciliation and better understanding of our unique and complex national identity.Read moreRead less
A novel granular stress sensor for soil exploration. The project aims to develop a novel way to measure the state of soils and improve the perception of soft ground robots by combining advances in sensor development with granular physics. The project expects to produce new insights in geotechnical engineering by utilising innovative sensors compliant with the surrounding medium, thus improving measurements across broader deformation conditions than existing technologies. Expected outcomes includ ....A novel granular stress sensor for soil exploration. The project aims to develop a novel way to measure the state of soils and improve the perception of soft ground robots by combining advances in sensor development with granular physics. The project expects to produce new insights in geotechnical engineering by utilising innovative sensors compliant with the surrounding medium, thus improving measurements across broader deformation conditions than existing technologies. Expected outcomes include an increased ability to prevent soil failures by utilising these sensors to monitor stress levels underground. This should provide significant benefits for saving critical infrastructure from environmental and geotechnical failures, including landslides, tunnel collapses, and tailings dam damages.Read moreRead less
Eruption dynamics and tsunami potential from submarine volcanoes. This project is based on recently acquired seafloor samples and geophysical data from extraordinary deposits at a modern submarine volcano. This project aims to determine the conditions that lead to explosive eruption underwater, the dynamics of associated sediment flows, and if these events can trigger tsunami. Expected outcomes include an unprecedented reconstruction of the architecture of submarine caldera volcanoes, new innova ....Eruption dynamics and tsunami potential from submarine volcanoes. This project is based on recently acquired seafloor samples and geophysical data from extraordinary deposits at a modern submarine volcano. This project aims to determine the conditions that lead to explosive eruption underwater, the dynamics of associated sediment flows, and if these events can trigger tsunami. Expected outcomes include an unprecedented reconstruction of the architecture of submarine caldera volcanoes, new innovative models applicable globally for a richer understanding of volcanic tsunami and eruptions that shape the seafloor. This project will provide significant benefits through mitigation of global marine natural hazards, and by improving knowledge on the volcanic hosts of ore deposits.Read moreRead less
Global Gravitational Wave Astronomy. To listen to the universe with gravitational waves needs a global array of gravitational wave observatories, and one of these must be in the southern hemisphere - in Australia. By definitively answering outstanding questions about an Australian gravitational wave observatory - Where should it be? How sensitive? What astronomy will it aid? - we make the case for the international community to help build this observatory, investing hundreds of millions of dolla ....Global Gravitational Wave Astronomy. To listen to the universe with gravitational waves needs a global array of gravitational wave observatories, and one of these must be in the southern hemisphere - in Australia. By definitively answering outstanding questions about an Australian gravitational wave observatory - Where should it be? How sensitive? What astronomy will it aid? - we make the case for the international community to help build this observatory, investing hundreds of millions of dollars in rural Australia and keeping Australia on the cutting edge of all branches of astronomy. As a flagship client of advanced data GRID technologies, we will also shape the growth of Australian knowledge of, and infrastructure for, next-generation communications technologies.Read moreRead less
Metaphotonics and metasurfaces for disruptive sensing technologies. This project aims to address a big challenge in nanophotonics by developing revolutionary methods for efficient chiral sensing of molecules without the need for spectrometry, frequency scanning, or moving mechanical parts, and to enhance chiroptical signals a hundredfold with the help of metasurface structures. Resonant metasurfaces are arrays of engineered dielectric nanoparticles with extraordinary characteristics, and they wo ....Metaphotonics and metasurfaces for disruptive sensing technologies. This project aims to address a big challenge in nanophotonics by developing revolutionary methods for efficient chiral sensing of molecules without the need for spectrometry, frequency scanning, or moving mechanical parts, and to enhance chiroptical signals a hundredfold with the help of metasurface structures. Resonant metasurfaces are arrays of engineered dielectric nanoparticles with extraordinary characteristics, and they would allow to overcome current limitations of chiral sensing analytical tools. Detecting chiral molecules in low concentrations is crucially important to many fields of biology, chemistry, and pharmacy, as well as to the food and cosmetics industries, constituting a market of tens of billions of dollars.Read moreRead less
Electrochemical Applications of Plastic Crystalline Electrolytes. A number of new and emerging electrochemical device applications such as lithium batteries, dye-sensitized solar cells, electrochemical capacitors, actuators and bio-sensors are limited by their need for a liquid electrolyte. Many of these devices are considered vital to energy efficiency and the lowering of greenhouse gas emissions. The recent discovery of ambient temperature plastic crystalline electrolyte materials by the Monas ....Electrochemical Applications of Plastic Crystalline Electrolytes. A number of new and emerging electrochemical device applications such as lithium batteries, dye-sensitized solar cells, electrochemical capacitors, actuators and bio-sensors are limited by their need for a liquid electrolyte. Many of these devices are considered vital to energy efficiency and the lowering of greenhouse gas emissions. The recent discovery of ambient temperature plastic crystalline electrolyte materials by the Monash Electrolytes group has raised the possibility of solving this problem. In this project new plastic crystalline electrolyte materials will be developed to suit these applications and their electrochemical properties investigated. Laboratory prototype devices will be prepared and tested and via collaborations with appropriate device developers, their performance evaluted.Read moreRead less
Extreme wave events on the water surface. Giant waves observed in the ocean present a catastrophic threat to ships and offshore structures. Rogue waves in optical fibres, on the other hand, may help developing powerful light sources for long-distance telecommunications. This study of capillary rogue waves on the water surface will help to predict and control the probability of extreme waves.
Erosion Morphodynamics and Evolution of Shore Platforms. Rocky coasts consist of a cliff and often a platform at the base which protects the cliff from wave energy. Such coasts undergo continuous erosion that may threaten property. Climate change may worsen this situation. Despite the importance of platforms in coastal management they remain poorly studied. This project seeks to improve scientific knowledge and understanding of the development and erosion of shore platforms, the relationships ....Erosion Morphodynamics and Evolution of Shore Platforms. Rocky coasts consist of a cliff and often a platform at the base which protects the cliff from wave energy. Such coasts undergo continuous erosion that may threaten property. Climate change may worsen this situation. Despite the importance of platforms in coastal management they remain poorly studied. This project seeks to improve scientific knowledge and understanding of the development and erosion of shore platforms, the relationships between shore platform and cliff retreat and the processes that drive erosion. As a result we will understand how rock coasts with platforms develop and change, especially as sea levels change and be better able to manage the coast in response to climate change. Read moreRead less
Non-Covalent Interactions Probed by Velocity Map Imaging. Our research program concerns non-covalent interactions, which are of fundamental importance in a range of areas including condensed phase chemistry, the folding of large molecules, biomolecule shape, host-guest chemistry and molecular self-assembly. We probe non-covalent interactions through studies of van der Waals molecules, which involve two or more molecules or atoms held together by non-covalent forces. Our group has developed new ....Non-Covalent Interactions Probed by Velocity Map Imaging. Our research program concerns non-covalent interactions, which are of fundamental importance in a range of areas including condensed phase chemistry, the folding of large molecules, biomolecule shape, host-guest chemistry and molecular self-assembly. We probe non-covalent interactions through studies of van der Waals molecules, which involve two or more molecules or atoms held together by non-covalent forces. Our group has developed new experimental methodologies for determining the strength of intermolecular interactions and these will be used to study the effect of 3-body interactions. Because of their role in chemical reaction, we will also undertake detailed studies of complexes involving radical species.Read moreRead less
The Interface of Oil-in-Water Emulsions. The interface between two immiscible liquids controls many phenomena including the formation and properties of emulsions, the nature of many chemical separation processes and the behaviour of biological systems. There are few methods to study such interfaces and most of these are susceptible to trace contamination by adventitious surfactants, but emulsions with their large surface area avoid this problem. Significant advances are possible with the new Aus ....The Interface of Oil-in-Water Emulsions. The interface between two immiscible liquids controls many phenomena including the formation and properties of emulsions, the nature of many chemical separation processes and the behaviour of biological systems. There are few methods to study such interfaces and most of these are susceptible to trace contamination by adventitious surfactants, but emulsions with their large surface area avoid this problem. Significant advances are possible with the new Australian technique of electroacoustics, complemented by neutron scattering, nmr, rheological and dielectric response measurements on concentrated emulsions. Our surfactant-free emulsions provide a fundamental breakthrough in such studies, leading to new materials from nanostructures.Read moreRead less