Australian Laureate Fellowships - Grant ID: FL0992361
Funder
Australian Research Council
Funding Amount
$2,055,030.00
Summary
Metal Processes and Products for a Sustainable Future. The metal manufacturing industry is extremely important to Australia; either directly through local products or indirectly through our mineral exports to the global market. The growth in emerging economies is driving major increases in metal production which currently requires large amounts of energy and production of significant greenhouse gas. Also many of the products, such as automobiles, are contributing to our environmental problems. ....Metal Processes and Products for a Sustainable Future. The metal manufacturing industry is extremely important to Australia; either directly through local products or indirectly through our mineral exports to the global market. The growth in emerging economies is driving major increases in metal production which currently requires large amounts of energy and production of significant greenhouse gas. Also many of the products, such as automobiles, are contributing to our environmental problems. This program of research will develop new processes, such as strip casting, that can radically reduce the production energy and other resource requirements. Also new products that will lead to lighter weight vehicles will be developed.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100086
Funder
Australian Research Council
Funding Amount
$2,924,858.00
Summary
Methane bioconversion to liquid chemicals. This project aims to develop a suite of leading-edge biotechnology solutions to enable the cost-effective production of liquid chemicals from biogas. This will create a much stronger economic driver for biogas production from organic wastes, by significantly increasing the value of biogas compared to its current use for power generation. With a multi-disciplinary approach, the project will substantially advance the fundamental science in the exciting an ....Methane bioconversion to liquid chemicals. This project aims to develop a suite of leading-edge biotechnology solutions to enable the cost-effective production of liquid chemicals from biogas. This will create a much stronger economic driver for biogas production from organic wastes, by significantly increasing the value of biogas compared to its current use for power generation. With a multi-disciplinary approach, the project will substantially advance the fundamental science in the exciting and highly valuable area of anaerobic microbial conversion of methane, the least understood process in the global carbon cycle. This transformational research has a strong potential to create a new biotechnology sector producing high-value chemicals from methane, and will propel Australia to the forefront of sustainable resources research.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL210100147
Funder
Australian Research Council
Funding Amount
$2,982,000.00
Summary
Alloy alchemy: New paradigms in alloy science to promote a circular economy. Although metals are readily remelted and reused, Australia exports most of its alloy scrap. These exports represent an opportunity for Australia to create value on-shore via a supply source that is secure against disruption. The Laureate will promote new ways to tap into this resource. It will provide the science needed to disrupt the current advanced alloy recycling paradigm and open up new avenues to create high value ....Alloy alchemy: New paradigms in alloy science to promote a circular economy. Although metals are readily remelted and reused, Australia exports most of its alloy scrap. These exports represent an opportunity for Australia to create value on-shore via a supply source that is secure against disruption. The Laureate will promote new ways to tap into this resource. It will provide the science needed to disrupt the current advanced alloy recycling paradigm and open up new avenues to create high value alloys from intermingled metal stocks that are currently ‘down-cycled’ because they are too costly to separate. The Laureate will also pioneer a new additive manufacturing technology to convert metal scrap into high value components, saving up to 95% of the production energy used to create the virgin metal.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL200100096
Funder
Australian Research Council
Funding Amount
$3,367,940.00
Summary
Mapping the genetic and lifestyle landscape of Healthy Ageing. This project aims to dissect how genes interact with the environment to control healthy ageing using a multidisciplinary approach combining state-of-the-art omics technologies, metabolic and ageing phenotyping and genetic analysis and a highly diverse model system. The project is expected to establish fundamental new understanding of the ageing process by identifying genes that regulate ageing either alone or in response to diet; by ....Mapping the genetic and lifestyle landscape of Healthy Ageing. This project aims to dissect how genes interact with the environment to control healthy ageing using a multidisciplinary approach combining state-of-the-art omics technologies, metabolic and ageing phenotyping and genetic analysis and a highly diverse model system. The project is expected to establish fundamental new understanding of the ageing process by identifying genes that regulate ageing either alone or in response to diet; by defining the mechanism by which such genes control ageing and by identifying biomarkers that predict different ageing outcomes. This knowledge will contribute to future strategies based on genetic testing and biomarkers to optimise healthy ageing in humans. Read moreRead less
Australian Laureate Fellowships - Grant ID: FL230100095
Funder
Australian Research Council
Funding Amount
$3,095,070.00
Summary
Materials Nanotectonics: Designing Conductive Inorganic Porous Materials. This project aims to develop the next generation of conductive porous materials through an integrated approach which combines inorganic synthesis with informatics. Using this approach, transition metals can be combined with nonmetals creating mesoporous materials with precise control of their internal space allowing the correlations between structure, composition, properties, and performance to be revealed. This project is ....Materials Nanotectonics: Designing Conductive Inorganic Porous Materials. This project aims to develop the next generation of conductive porous materials through an integrated approach which combines inorganic synthesis with informatics. Using this approach, transition metals can be combined with nonmetals creating mesoporous materials with precise control of their internal space allowing the correlations between structure, composition, properties, and performance to be revealed. This project is expected to generate new highly efficient electrocatalysts and energy conversion devices based on low-cost and earth-abundant transition metals. The project outcomes will position Australia at the forefront of research and development in advanced materials, smart catalysts, and renewable energy technologies.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL150100106
Funder
Australian Research Council
Funding Amount
$2,951,945.00
Summary
Bio-metrology and modelling of a complex system: the malaria parasite. Bio-metrology and modelling of a complex system: the malaria parasite: This fellowship project aims to develop a cross-disciplinary program to measure, model and manipulate a complex cellular system — sexual differentiation of the human malaria parasite. Combining life and physical sciences with powerful imaging techniques, the project seeks to develop quantitative biochemical, biophysical and modelling techniques to probe a ....Bio-metrology and modelling of a complex system: the malaria parasite. Bio-metrology and modelling of a complex system: the malaria parasite: This fellowship project aims to develop a cross-disciplinary program to measure, model and manipulate a complex cellular system — sexual differentiation of the human malaria parasite. Combining life and physical sciences with powerful imaging techniques, the project seeks to develop quantitative biochemical, biophysical and modelling techniques to probe a complex system in a way previously not possible. It expects to integrate and correlate thousands of measurements of the dynamic processes inside cells and use these datasets to generate rigorous and sophisticated mathematical models that can predict drivers of commitment for transformation of the parasite to a sexual phase in preparation for transmission to mosquitoes. This holistic approach hopes to deliver new biotechnology and biomedical outcomes, including new ways to combat disease in livestock and humans.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: FL170100006
Funder
Australian Research Council
Funding Amount
$3,016,065.00
Summary
Pattern analysis for accelerating scientific innovation. This project aims to determine how pattern recognition can be harnessed to accelerate and expand the capability of experimental optimisation that underpins scientific innovation. Disrupting current experimental methods, this new framework will use data-driven models to guide humans through experimental complexity. The expected outcomes of the project include advancing the theory and practice of pattern recognition in Bayesian optimisation ....Pattern analysis for accelerating scientific innovation. This project aims to determine how pattern recognition can be harnessed to accelerate and expand the capability of experimental optimisation that underpins scientific innovation. Disrupting current experimental methods, this new framework will use data-driven models to guide humans through experimental complexity. The expected outcomes of the project include advancing the theory and practice of pattern recognition in Bayesian optimisation by solving both fundamental and translatory problems, totally transforming the way complex experimental explorations can be done. The project will establish Australia as a leader in innovation-led productivity in the 4th industrial revolution, which will include ground-breaking investigations into the use of pattern recognition to navigate complexity in the experimental process.Read moreRead less