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Australian Laureate Fellowships - Grant ID: FL220100016
Funder
Australian Research Council
Funding Amount
$2,738,854.00
Summary
Light-Driven Manufacturing for (Re)Programmable Materials. This Laureate Fellowship aims to develop a suite of chemical reactions independently activated by specific colours of light for the precise synthesis of functional macromolecules and the fabrication of (re)programmable polymeric materials. The outcome of this Laureate will be the direct production of advanced 3D printed objects with tuneable properties and functions by exploiting different wavelengths of light. This research unlocks the ....Light-Driven Manufacturing for (Re)Programmable Materials. This Laureate Fellowship aims to develop a suite of chemical reactions independently activated by specific colours of light for the precise synthesis of functional macromolecules and the fabrication of (re)programmable polymeric materials. The outcome of this Laureate will be the direct production of advanced 3D printed objects with tuneable properties and functions by exploiting different wavelengths of light. This research unlocks the structural precision of Nature and the next-generation capabilities of reshapability. These innovative tools will revolutionise 3D printing methods, which will create a new era of advanced manufacturing.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL150100060
Funder
Australian Research Council
Funding Amount
$2,875,097.00
Summary
The first generation of single entity measurement tools for analysis. The first generation of single entity measurement tools for analysis: This fellowship project aims to develop a new type of diagnostic device that measures single molecules or single cells. Such measurements seek to revolutionise analysis by allowing heterogeneity and rare events in samples to be identified, rather than the average information provided by existing tools. With single molecule devices, the heterogeneity in respo ....The first generation of single entity measurement tools for analysis. The first generation of single entity measurement tools for analysis: This fellowship project aims to develop a new type of diagnostic device that measures single molecules or single cells. Such measurements seek to revolutionise analysis by allowing heterogeneity and rare events in samples to be identified, rather than the average information provided by existing tools. With single molecule devices, the heterogeneity in response enables the development of multiplexed, calibration free sensors. The outcomes of the project are hoped to be completely new thinking on performing measurements, new knowledge regarding heterogeneity in biology and the potential for novel commercialised sensors. It is expected that this will be important not only in biological discovery, but also in providing far more robust sensors for applications such as environmental monitoring, disease prediction, personalised medicine or drug discovery.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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Australian Laureate Fellowships - Grant ID: FL200100124
Funder
Australian Research Council
Funding Amount
$3,372,617.00
Summary
Very small nanoparticles made to measure. The administration of therapeutic drugs is often unsuccessful as the drug is quickly cleared from the body. Nanoparticles have been shown to enhance the efficiency of the drug administration, as evidenced by the increasing number of nanoformulations on the market, although commercially available products have currently a range of shortcomings, some of them related to their size. This research program aims to develop a toolset that allows the design of ve ....Very small nanoparticles made to measure. The administration of therapeutic drugs is often unsuccessful as the drug is quickly cleared from the body. Nanoparticles have been shown to enhance the efficiency of the drug administration, as evidenced by the increasing number of nanoformulations on the market, although commercially available products have currently a range of shortcomings, some of them related to their size. This research program aims to develop a toolset that allows the design of very small nanoparticles that display enhanced biological activity. The outcome will be an in-depth understanding of the relationship between polymer structure and properties, which is not only important for nanomedicine, but other areas such as catalysis and sensors. Read moreRead less
Australian Laureate Fellowships - Grant ID: FL210100180
Funder
Australian Research Council
Funding Amount
$2,781,000.00
Summary
Upconversion nanophotonic systems . The photon upconversion process can produce visible light from lower-energy near-infrared incident light. This Laureate Program aims to address major bottlenecks in upconversion nanotechnology – the efficiency, stability and absorption bandwidth. Expected outcomes include new knowledge in the interface design of hybrid materials, a world-leading single-particle spectroscopy system, a new family of molecular probes, and novel super-resolution microscopy for fun ....Upconversion nanophotonic systems . The photon upconversion process can produce visible light from lower-energy near-infrared incident light. This Laureate Program aims to address major bottlenecks in upconversion nanotechnology – the efficiency, stability and absorption bandwidth. Expected outcomes include new knowledge in the interface design of hybrid materials, a world-leading single-particle spectroscopy system, a new family of molecular probes, and novel super-resolution microscopy for functional imaging of subcellular organelles. This research offers exciting opportunities for single-molecule tracking, quantitative diagnostics, non-invasive imaging, bio-mechanical force measurement and thermometry; tools to observe the nanoscale world inside live cells.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: FL190100126
Funder
Australian Research Council
Funding Amount
$3,508,332.00
Summary
Carbon-based Metal-free Catalysis: An Emerging Field with Great Potential. Catalysis is a major field and noble metal catalysts play a key role in renewable energy technologies, chemical and environmental processes. However, the scarcity and high cost of noble metals have caused sustainability problems. Since this Laureate applicant discovered the first metal-free carbon catalyst for energy, carbon-based metal-free catalysis rapidly became a promising emerging field, but many scientific question ....Carbon-based Metal-free Catalysis: An Emerging Field with Great Potential. Catalysis is a major field and noble metal catalysts play a key role in renewable energy technologies, chemical and environmental processes. However, the scarcity and high cost of noble metals have caused sustainability problems. Since this Laureate applicant discovered the first metal-free carbon catalyst for energy, carbon-based metal-free catalysis rapidly became a promising emerging field, but many scientific questions remain unsolved. In this program, innovative approaches will be developed to produce never-before-realized catalytic active centres of a controlled location and structure for mechanistic understanding to enable future breakthroughs in metal-free catalysis and a broad range of technology with far ranging applications.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL230100176
Funder
Australian Research Council
Funding Amount
$2,920,000.00
Summary
Computational design of frontier materials for sustainable technologies. This Laureate will establish a new and powerful computational materials research platform that uses cutting-edge ab initio calculations and artificial intelligence, to understand and design tailored structures that possess the required new and improved functionalities for tomorrow’s materials. In enabling the development of novel catalysts needed for the generation of green fuels and chemicals, and key quantum devices for q ....Computational design of frontier materials for sustainable technologies. This Laureate will establish a new and powerful computational materials research platform that uses cutting-edge ab initio calculations and artificial intelligence, to understand and design tailored structures that possess the required new and improved functionalities for tomorrow’s materials. In enabling the development of novel catalysts needed for the generation of green fuels and chemicals, and key quantum devices for quantum technologies, this Laureate promises timely support for Australia’s commitment to renewable energies, low emissions and its nascent quantum future. New and existing collaboration with leading international groups underpin significant national benefits including new disciplinary capacity and world-class research.Read moreRead less