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Australian Laureate Fellowships - Grant ID: FL180100196
Funder
Australian Research Council
Funding Amount
$2,253,312.00
Summary
Development of multi-hazard resilient and sustainable infrastructure. This project aims to develop next generation construction of multi-hazard resilient structures for the safety and wellbeing of the public, society and economy, as well as structural health monitoring techniques for effective engineering asset management. Sustainable infrastructure development involves the use of green materials to reduce greenhouse gas emission, and new technologies to reduce construction and life-cycle mainte ....Development of multi-hazard resilient and sustainable infrastructure. This project aims to develop next generation construction of multi-hazard resilient structures for the safety and wellbeing of the public, society and economy, as well as structural health monitoring techniques for effective engineering asset management. Sustainable infrastructure development involves the use of green materials to reduce greenhouse gas emission, and new technologies to reduce construction and life-cycle maintenance cost. The project will use new green materials and techniques to prefabricate structural components which can be easily assembled and dismantled to meet the requirement for adaptation to technology advancement, urban planning and climate change. The project will advance the construction practice for sustainable infrastructure development.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL0992039
Funder
Australian Research Council
Funding Amount
$2,860,400.00
Summary
Failure Analysis of Geotechnical Infrastructure. With a forecast public and private sector investment of around 200 billion dollars in Australia's infrastructure over the next five years, there is an unprecedented need to design and build this infrastructure as cheaply and safely as possible. Given the magnitude of the investment involved, even small percentage savings resulting from advanced research will lead to large returns in absolute dollar terms. This project will provide engineers with ....Failure Analysis of Geotechnical Infrastructure. With a forecast public and private sector investment of around 200 billion dollars in Australia's infrastructure over the next five years, there is an unprecedented need to design and build this infrastructure as cheaply and safely as possible. Given the magnitude of the investment involved, even small percentage savings resulting from advanced research will lead to large returns in absolute dollar terms. This project will provide engineers with new and better tools for predicting the safety of geostructures such as roads, railways, tunnels, dams, and port facilities. Moreover, commercialisation of the corresponding software worldwide will provide knowledge transfer from the university sector to industry and generate technology exports.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL190100139
Funder
Australian Research Council
Funding Amount
$3,185,850.00
Summary
New Artificial Leaf for Efficient Solar Fuel Production . The Fellowship aims to develop next-generation materials that harness solar energy to produce valuable fuels and chemicals from water and carbon dioxide, replacing fossil fuels. The program will design new semiconductor materials to revolutionise solar-to-fuel technologies that currently have very low efficiency. The expected outcomes include innovative systems such as wireless artificial leaves that mimic natural photosynthesis for effic ....New Artificial Leaf for Efficient Solar Fuel Production . The Fellowship aims to develop next-generation materials that harness solar energy to produce valuable fuels and chemicals from water and carbon dioxide, replacing fossil fuels. The program will design new semiconductor materials to revolutionise solar-to-fuel technologies that currently have very low efficiency. The expected outcomes include innovative systems such as wireless artificial leaves that mimic natural photosynthesis for efficient hydrocarbon production, carbon dioxide reduction, and water purification. The expected benefits include next-generation solar fuel and chemical generation technologies, and research capabilities to position Australia as a global leader in the transition to a decarbonised economy.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100053
Funder
Australian Research Council
Funding Amount
$3,162,000.00
Summary
Re-discovering liquid metals from core to surface. This project aims to investigate and make new discoveries on the unique properties of liquid metals. Liquid metals have traditionally been used in mining, for switches, barometers, heat transfer units, and coolers and heaters. However, recent discoveries have indicated that liquid metals have untapped potential in applications for creating systems with extraordinary physical and chemical properties. This project will expand our knowledge of liqu ....Re-discovering liquid metals from core to surface. This project aims to investigate and make new discoveries on the unique properties of liquid metals. Liquid metals have traditionally been used in mining, for switches, barometers, heat transfer units, and coolers and heaters. However, recent discoveries have indicated that liquid metals have untapped potential in applications for creating systems with extraordinary physical and chemical properties. This project will expand our knowledge of liquid metals by exploring liquid metals as electron rich solvents and investigating new properties to develop future applications in electronics, optics, catalysts, thermal devices and bio systems.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL190100014
Funder
Australian Research Council
Funding Amount
$2,871,982.00
Summary
New Technologies for Delivering Sustainable Free-form Architecture. This project aims to harness the full potential of digital technologies to significantly enhance the performance and reduce the environmental impact of free-form architecture of the future. The research expects to establish a fundamentally new computational platform capable of producing diverse and competitive designs, and an environmentally friendly manufacturing process for realising such designs. Expected outcomes include an ....New Technologies for Delivering Sustainable Free-form Architecture. This project aims to harness the full potential of digital technologies to significantly enhance the performance and reduce the environmental impact of free-form architecture of the future. The research expects to establish a fundamentally new computational platform capable of producing diverse and competitive designs, and an environmentally friendly manufacturing process for realising such designs. Expected outcomes include an unprecedented cloud-based interactive design tool, and a novel minimum-waste manufacturing technology for fabricating mass-customised building components. This project will transform the architecture, engineering and construction (AEC) sector and make the Australian manufacturing industry more competitive globally.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL130100059
Funder
Australian Research Council
Funding Amount
$3,204,762.00
Summary
New Frontiers in offshore geotechnics: securing Australia's energy future. Offshore gas lies at the heart of Australia's prosperity, with $120 billion of infrastructure under construction, however its future requires new technology to safely build offshore foundations in our weak and problematic soils. This project will provide engineers with science-based tools to unlock the natural gas 'stranded' in our deep oceans.
Australian Laureate Fellowships - Grant ID: FL200100049
Funder
Australian Research Council
Funding Amount
$2,906,992.00
Summary
Nanofluidic Membranes for Sustainable Energy Future. This project aims to create a novel class of advanced membranes by making fundamental breakthroughs in nanofluidics, and harnessing this for developing new renewable energy and low-energy separation technologies. This project addresses the key challenges in understanding selective mass transport at the angstrom scale, thereby allowing the development of innovative materials design strategies to realise the ultrafast molecular and ionic permeat ....Nanofluidic Membranes for Sustainable Energy Future. This project aims to create a novel class of advanced membranes by making fundamental breakthroughs in nanofluidics, and harnessing this for developing new renewable energy and low-energy separation technologies. This project addresses the key challenges in understanding selective mass transport at the angstrom scale, thereby allowing the development of innovative materials design strategies to realise the ultrafast molecular and ionic permeation, and the ultrahigh selectivities observed in biological cell membranes. This new cross-disciplinary research will benefit Australia by the development of new materials for accelerating renewable hydrogen and biofuel futures, and enabling sustainable production of energy materials.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL140100081
Funder
Australian Research Council
Funding Amount
$2,380,000.00
Summary
Engineering hybrid photocatalytic systems for sustainable fuel generation. Engineering hybrid photocatalytic systems for sustainable fuel generation. The project aims to develop next generation hybrid photo-(co)catalyst and gaseous photoelectrode systems that will effectively harness solar energy to transform carbon dioxide into sustainable fuels using a multi-scale approach: designing hetero-structured material systems; elucidating surface reaction mechanisms, and engineering coupled photo/ther ....Engineering hybrid photocatalytic systems for sustainable fuel generation. Engineering hybrid photocatalytic systems for sustainable fuel generation. The project aims to develop next generation hybrid photo-(co)catalyst and gaseous photoelectrode systems that will effectively harness solar energy to transform carbon dioxide into sustainable fuels using a multi-scale approach: designing hetero-structured material systems; elucidating surface reaction mechanisms, and engineering coupled photo/thermal-catalytic and unique gaseous photoelectrochemical systems. This project aims to yield fundamental new knowledge for the economical conversion and storage of solar energy as an environmentally benign chemical fuel, as well as create contemporary material systems and reactors for photo- and thermal-catalysis and photoelectrochemical reactions that utilise carbon dioxide as a feedstock.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL220100082
Funder
Australian Research Council
Funding Amount
$3,450,896.00
Summary
My Air Space: the Science of Buildings that Make us Thrive. Nothing is more necessary in human life than the air we breathe, mostly indoors where air quality has been relatively overlooked. This project aims to deliver new science and technology as a foundation for optimising indoor atmospheres to improve health, wellbeing, and comfort. Expected outcomes include innovative, efficient, low-cost diagnostic sensing of indoor atmospheres and human–space interactions, real-time detection of airborne ....My Air Space: the Science of Buildings that Make us Thrive. Nothing is more necessary in human life than the air we breathe, mostly indoors where air quality has been relatively overlooked. This project aims to deliver new science and technology as a foundation for optimising indoor atmospheres to improve health, wellbeing, and comfort. Expected outcomes include innovative, efficient, low-cost diagnostic sensing of indoor atmospheres and human–space interactions, real-time detection of airborne pathogens and particles that host them, and cost-effective localised conditioning of spaces for comfort at points of actual use. Benefits should be seen in areas of health, productivity, reduced energy use, and new industries for the design, modernising, and operation of buildings across Australia and beyond.Read moreRead less
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.
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