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Australian Laureate Fellowships - Grant ID: FL210100051
Funder
Australian Research Council
Funding Amount
$3,518,080.00
Summary
Dynamics of Partisanship and Polarisation in Online Public Debate. Rapidly increasing partisanship and polarisation, especially online, poses an urgent threat to societal cohesion in Australia and other established western democracies; polarisation is also a critical cybersecurity concern when actively promoted by bad-faith actors to undermine citizens’ trust in democratic institutions. By introducing an analytical framework that distinguishes four key dimensions of polarisation, the Fellowship ....Dynamics of Partisanship and Polarisation in Online Public Debate. Rapidly increasing partisanship and polarisation, especially online, poses an urgent threat to societal cohesion in Australia and other established western democracies; polarisation is also a critical cybersecurity concern when actively promoted by bad-faith actors to undermine citizens’ trust in democratic institutions. By introducing an analytical framework that distinguishes four key dimensions of polarisation, the Fellowship aims to conduct the first-ever assessment of the extent and dynamics of polarisation in the contemporary online and social media environments of six nations, including Australia. The evidence is expected to enable an urgently needed, robust defence of our society and democracy against the challenges of polarisation.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100101
Funder
Australian Research Council
Funding Amount
$2,843,970.00
Summary
Towards sustainable electrochemical energy storage technology. This project aims to address fundamental issues on electrochemical energy storage technology using sodium-ion capacitors, by designing novel electrode materials and utilising advanced, in-situ and ex-situ instrumental techniques in combination with modern computational simulation methods. The project will lead to a complete understanding of the charge storage mechanism and transport kinetics in sodium-ion capacitors, providing guide ....Towards sustainable electrochemical energy storage technology. This project aims to address fundamental issues on electrochemical energy storage technology using sodium-ion capacitors, by designing novel electrode materials and utilising advanced, in-situ and ex-situ instrumental techniques in combination with modern computational simulation methods. The project will lead to a complete understanding of the charge storage mechanism and transport kinetics in sodium-ion capacitors, providing guidelines for developing sustainable electrochemical energy storage technology. The project expects to generate new knowledge in energy storage including capacity building, training of young scientists, and intellectual property with potential commercialised products.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL140100197
Funder
Australian Research Council
Funding Amount
$2,970,898.00
Summary
Revealing the invisible: new principles of vision in Australian animals. Revealing the invisible: new principles of vision in Australian animals. This project aims to reveal how the visual systems of marine creatures from the Great Barrier Reef receive and interpret colour and polarisation information, much of which is invisible to the human eye. It aims to utilise this data to tackle fundamental questions in neuroscience and inform bio-inspired camera design and machine-vision solutions. The re ....Revealing the invisible: new principles of vision in Australian animals. Revealing the invisible: new principles of vision in Australian animals. This project aims to reveal how the visual systems of marine creatures from the Great Barrier Reef receive and interpret colour and polarisation information, much of which is invisible to the human eye. It aims to utilise this data to tackle fundamental questions in neuroscience and inform bio-inspired camera design and machine-vision solutions. The resulting new generation of polarisation cameras will be used to characterise the environments, animals and brains that inspired them in the first place. This will help the understanding of how nervous systems convey information and may improve our ability to detect dysfunction in neurons and other cells.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL160100089
Funder
Australian Research Council
Funding Amount
$2,600,796.00
Summary
In situ electron microscopy toward new materials and applications. In situ electron microscopy toward new materials and applications. This project aims to develop materials for structural and green energy applications, using spatially-resolved, dynamic in situ transmission electron microscopy to research fundamental mechanical, electrical, thermal, optical, optoelectronic and photovoltaic properties of diverse nanostructures. These techniques measure nanomaterial (one-dimensional nanotubes and n ....In situ electron microscopy toward new materials and applications. In situ electron microscopy toward new materials and applications. This project aims to develop materials for structural and green energy applications, using spatially-resolved, dynamic in situ transmission electron microscopy to research fundamental mechanical, electrical, thermal, optical, optoelectronic and photovoltaic properties of diverse nanostructures. These techniques measure nanomaterial (one-dimensional nanotubes and nanowires and two-dimensional graphene-like nanosheets) response to external stimuli, including mechanical, electrical, optical and thermal stimuli. Anticipated outcomes are new ultralight and superstrong structural composites and ‘green-energy’ nanomaterials, such as solar cells, touch panels, batteries, supercapacitors, field-effect transistors, light sensors and displays.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL210100045
Funder
Australian Research Council
Funding Amount
$3,245,263.00
Summary
Energy-efficient artificial intelligence using quantum technologies. Artificial intelligence (AI) is transforming society but standard technologies come with significant hidden costs: training even a single, common, learning model can emit 5 times more carbon dioxide than the lifetime emissions of the average car. This Fellowship aims to develop artificial intelligence platforms using Australia’s significant investment in quantum technologies to bypass traditional approaches to AI. The expected ....Energy-efficient artificial intelligence using quantum technologies. Artificial intelligence (AI) is transforming society but standard technologies come with significant hidden costs: training even a single, common, learning model can emit 5 times more carbon dioxide than the lifetime emissions of the average car. This Fellowship aims to develop artificial intelligence platforms using Australia’s significant investment in quantum technologies to bypass traditional approaches to AI. The expected outcomes are neuromorphic computers that operate efficiently—with low-energy cost—and rapidly—achieving speeds impossible with conventional electronic approaches. The anticipated benefits are transformative technologies for AI, new applications across society, and new tools for exploring brain function and cognition.Read moreRead less