Australian Laureate Fellowships - Grant ID: FL140100278
Funder
Australian Research Council
Funding Amount
$2,513,348.00
Summary
Hector: a revolutionary survey machine to discover how galaxies formed. Hector: a revolutionary survey machine to discover how galaxies formed. The formation of the Milky Way, is one of the most important questions in cosmology today. One of the key unknowns is how the gas, which forms the stars, gets into dark matter halos to make galaxies and why these galaxies spin. This project aims to assemble a first-rate instrument team to build Hector, the first automated hexabundle spectrograph; to ass ....Hector: a revolutionary survey machine to discover how galaxies formed. Hector: a revolutionary survey machine to discover how galaxies formed. The formation of the Milky Way, is one of the most important questions in cosmology today. One of the key unknowns is how the gas, which forms the stars, gets into dark matter halos to make galaxies and why these galaxies spin. This project aims to assemble a first-rate instrument team to build Hector, the first automated hexabundle spectrograph; to assemble a large team to combine Hector's spectral imaging of 100,000 galaxies with new Australian radio observations; and to extend this technology for the Giant Magellan Telescope. This will help to ensure Australia's leadership in observational cosmology and instrumentation through this decade and into the era of extremely large telescopes.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL200100025
Funder
Australian Research Council
Funding Amount
$3,112,050.00
Summary
Mind the Worker: Transformative Future Human-Centred Corporate Climate. The project will assist Australia meet its UN Sustainable Development Goal to promote decent and safe work by producing new knowledge to support radical reform to Australia’s corporate climate. Only 52% of Australian workers report that their workplace is psychologically healthy. Bullying rates are high, work pressure is increasing. The Fellowship will establish the world’s first Psychosocial Safety Climate Observatory, a re ....Mind the Worker: Transformative Future Human-Centred Corporate Climate. The project will assist Australia meet its UN Sustainable Development Goal to promote decent and safe work by producing new knowledge to support radical reform to Australia’s corporate climate. Only 52% of Australian workers report that their workplace is psychologically healthy. Bullying rates are high, work pressure is increasing. The Fellowship will establish the world’s first Psychosocial Safety Climate Observatory, a research platform to gather, analyse, and synthesise, national and international data. By inspiring world-class researchers to build state of the art knowledge and tools for work climate change, Australia will be an authoritative leader in human-centred, more psychologically healthy, innovative and productive workplaces. Read moreRead less
Australian Laureate Fellowships - Grant ID: FL210100099
Funder
Australian Research Council
Funding Amount
$3,401,828.00
Summary
The Intelligent Microscope - novel optical imaging at depth. While optical methods for imaging are used extensively, achieving wide-field imaging through scattering media with high resolution and depth is a major challenge, due mainly to the limited penetration depth of light. This proposal aims to transform wide-field optical imaging through a new ‘intelligent’ microscopy able to capture 3D volumetric images. Innovations in shaping light in both space and time will be combined in a holistic wa ....The Intelligent Microscope - novel optical imaging at depth. While optical methods for imaging are used extensively, achieving wide-field imaging through scattering media with high resolution and depth is a major challenge, due mainly to the limited penetration depth of light. This proposal aims to transform wide-field optical imaging through a new ‘intelligent’ microscopy able to capture 3D volumetric images. Innovations in shaping light in both space and time will be combined in a holistic way with computational analysis to extract images from deep within the sample at extraordinary levels of detail. Major benefits of the research range from next-generation tools for enhanced discovery of biological and physical materials, to new Australian start-ups for new imaging and microscopy devices.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100020
Funder
Australian Research Council
Funding Amount
$1,638,060.00
Summary
Advances in index theory and applications. The project aims to develop novel techniques to investigate Geometric analysis on infinite dimensional bundles, as well as Geometric analysis of pathological spaces with Cantor set as fibre, that arise in models for the fractional quantum Hall effect and topological matter, areas recognised with the 1998 and 2016 Nobel Prizes. Building on the applicant’s expertise in the area, the project will involve postgraduate and postdoctoral training in order to e ....Advances in index theory and applications. The project aims to develop novel techniques to investigate Geometric analysis on infinite dimensional bundles, as well as Geometric analysis of pathological spaces with Cantor set as fibre, that arise in models for the fractional quantum Hall effect and topological matter, areas recognised with the 1998 and 2016 Nobel Prizes. Building on the applicant’s expertise in the area, the project will involve postgraduate and postdoctoral training in order to enhance Australia’s position at the forefront of international research in Geometric Analysis. Ultimately, the project will enhance Australia's leading position in the area of Index Theory by developing novel techniques to solve challenging conjectures, and mentoring HDR students and ECRs.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL0992247
Funder
Australian Research Council
Funding Amount
$2,988,295.00
Summary
Advances at the frontiers of subatomic physics and cross-disciplinary applications of the associated techniques. The candidate is an international scientific leader, in terms of his own research, his responsibilities within the United States Department of Energy (DoE) and his role as Chair of the International Union of Pure and Applied Physics (IUPAP) Working Group on International Cooperation in Nuclear Physics. His return to South Australia to establish a major new research centre in the physi ....Advances at the frontiers of subatomic physics and cross-disciplinary applications of the associated techniques. The candidate is an international scientific leader, in terms of his own research, his responsibilities within the United States Department of Energy (DoE) and his role as Chair of the International Union of Pure and Applied Physics (IUPAP) Working Group on International Cooperation in Nuclear Physics. His return to South Australia to establish a major new research centre in the physical sciences will dramatically enhance the State's reputation in science and engineering, an essential component of its contribution to the nation's defence. It will underline Australia's commitment to contribute its share to advancing fundamental science. The involvement of senior researchers from fields as diverse as applied optics and mathematical biology will ensure that the opportunities for cross-disciplinary research are fully exploited.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL130100102
Funder
Australian Research Council
Funding Amount
$3,179,946.00
Summary
Lifelong computer vision systems. This project will create a computer vision system that can produce a detailed environmental map in real time, turning standard video cameras into sensors that 'understand' a scene with basic semantic tools. This high-level sensing will unlock a wide range of applications for autonomous systems.
Australian Laureate Fellowships - Grant ID: FL210100050
Funder
Australian Research Council
Funding Amount
$3,263,000.00
Summary
Interfacial design and engineering for high-performance batteries. This Fellowship aims to design the next generation of batteries - for use in portable devices, electric vehicles and smart grids - that will overcome the energy density, cycle life, and safety issues, and will contribute to a more sustainable future. This comprehensive and ground-breaking research program combines experiment and theory of electrode/electrolyte interfacial behaviour with materials engineering, to develop a toolkit ....Interfacial design and engineering for high-performance batteries. This Fellowship aims to design the next generation of batteries - for use in portable devices, electric vehicles and smart grids - that will overcome the energy density, cycle life, and safety issues, and will contribute to a more sustainable future. This comprehensive and ground-breaking research program combines experiment and theory of electrode/electrolyte interfacial behaviour with materials engineering, to develop a toolkit of new battery design principles. The program expects to deliver high energy-density batteries with outstanding safety profiles and extended cycle lives. These outcomes would revolutionise battery technologies and position Australia as a global leader in the critical transition to a decarbonised economy.
Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100154
Funder
Australian Research Council
Funding Amount
$2,683,730.00
Summary
Solar-driven sustainable production of fuels and chemicals. This project aims to address the efficient and sustainable production of fuels and chemicals using abundant sources like water, carbon dioxide and sunlight by an integrated reaction system. Through understanding molecular design principles and material engineering, this project expects to develop a range of novel electrocatalysts featuring high activity, efficiency, selectivity and stability for carbon dioxide reduction and hydrogen evo ....Solar-driven sustainable production of fuels and chemicals. This project aims to address the efficient and sustainable production of fuels and chemicals using abundant sources like water, carbon dioxide and sunlight by an integrated reaction system. Through understanding molecular design principles and material engineering, this project expects to develop a range of novel electrocatalysts featuring high activity, efficiency, selectivity and stability for carbon dioxide reduction and hydrogen evolution reactions. These new catalysts will facilitate a hybrid reaction cell as artificial leaf mimics by associating photocatalysis and electrocatalysis processes. The expected outcome of this project is of great importance for solar fuel generation and carbon dioxide utilisation, which are the key energy and environmental challenges facing Australia and the world today. This will provide benefits such as an innovative system of solar energy transformation that will lead to the production of fuels and key chemicals in an efficient, selective and sustainable form, ultimately bringing environmental benefits through much smaller greenhouse gas emissions.Read moreRead less