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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: FL200100204
Funder
Australian Research Council
Funding Amount
$3,137,608.00
Summary
Trustworthy Artificial Intelligence. This project aims to understand how to build AI systems that humans can trust. It does so by studying how to make such systems fair, explainable, auditable, preserving of privacy and verifiable. Outputs will include tools to build trustworthy AI systems, as well as policy recommendations to complement the technical tools. This should provide significant economic and societal benefits as decisions in both the public and private sector are increasingly being ha ....Trustworthy Artificial Intelligence. This project aims to understand how to build AI systems that humans can trust. It does so by studying how to make such systems fair, explainable, auditable, preserving of privacy and verifiable. Outputs will include tools to build trustworthy AI systems, as well as policy recommendations to complement the technical tools. This should provide significant economic and societal benefits as decisions in both the public and private sector are increasingly being handed over to computers.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL220100059
Funder
Australian Research Council
Funding Amount
$2,937,786.00
Summary
Digital chemistry and catalysis: redefining reactions in confined systems. This Laureate program aims to initiate a new era of chemical catalysis and reaction manipulation via an entirely novel nanofluidic approach discovered in Australia. By further studying this phenomenon, it aims to deliver new insights into what drives chemical reactions in confined systems controlled by applied electric fields. It will also develop novel technology platforms to miniaturise and enable on-demand software-con ....Digital chemistry and catalysis: redefining reactions in confined systems. This Laureate program aims to initiate a new era of chemical catalysis and reaction manipulation via an entirely novel nanofluidic approach discovered in Australia. By further studying this phenomenon, it aims to deliver new insights into what drives chemical reactions in confined systems controlled by applied electric fields. It will also develop novel technology platforms to miniaturise and enable on-demand software-controlled (digital) chemistry, with broad applications in pharmaceutical, biotechnology and chemical industries. Project success will have a profound impact in many areas of modern society, the environment and the high-tech and manufacturing industry, while further enhancing Australia's sovereign manufacturing capability.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100041
Funder
Australian Research Council
Funding Amount
$2,327,500.00
Summary
Controlling chemical reactions via pH-switchable electrostatic catalysis. This project aims to establish a new approach to catalysis using the electrostatic effects of pH-switchable, charged functional groups. Utilising simple homogeneous catalysts and polymer-supported enzyme-mimicking catalysts, a wide range of target reactions will be studied. The expected outcomes of the project will include a new approach to the design and optimisation of several new classes of catalyst for assembling compl ....Controlling chemical reactions via pH-switchable electrostatic catalysis. This project aims to establish a new approach to catalysis using the electrostatic effects of pH-switchable, charged functional groups. Utilising simple homogeneous catalysts and polymer-supported enzyme-mimicking catalysts, a wide range of target reactions will be studied. The expected outcomes of the project will include a new approach to the design and optimisation of several new classes of catalyst for assembling complex molecules and materials. The project also offers a unique opportunity to train the next generation of chemists in the principles of computer-aided chemical design. The catalysts developed in this project will be able to accelerate and control the chemical reactions used in the synthesis of pharmaceuticals and materials, with significant practical benefits to industry.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL100100117
Funder
Australian Research Council
Funding Amount
$2,713,582.00
Summary
Molecular Plasmonics - From Single Electrons to Quantum Catalysis and Optical Logic Gates. After a decade of basic research, Nanotechnology is now entering its most disruptive phase. New nanoscale phenomena are being exploited and converted into viable technologies. Plasmonics - the manipulation of light using metal nanostructures - is one of the most promising of these. Plasmonics will enable scientists to achieve optical computing, reach higher data storage densities, and synthesize better cat ....Molecular Plasmonics - From Single Electrons to Quantum Catalysis and Optical Logic Gates. After a decade of basic research, Nanotechnology is now entering its most disruptive phase. New nanoscale phenomena are being exploited and converted into viable technologies. Plasmonics - the manipulation of light using metal nanostructures - is one of the most promising of these. Plasmonics will enable scientists to achieve optical computing, reach higher data storage densities, and synthesize better catalysts. Other applications include bio-sensing and rapid pathogen detection. To realise these potential outcomes, a leading international cluster focussing on plasmonics will be set up and this cluster will link state-of-the-art materials science, instrumentation and theory.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100022
Funder
Australian Research Council
Funding Amount
$3,402,903.00
Summary
Redefining virus ecology and evolution. This project aims to employ novel genomic analyses of viruses from Australian fauna to resolve major questions in RNA virus ecology and evolution, and is expected to reveal the basic processes that shape the virosphere, determine how viruses jump species to emerge and cause disease in new hosts, and how viruses evolve new levels of virulence. The research will provide a new understanding of how viruses evolve and contribute to global ecosystems and develop ....Redefining virus ecology and evolution. This project aims to employ novel genomic analyses of viruses from Australian fauna to resolve major questions in RNA virus ecology and evolution, and is expected to reveal the basic processes that shape the virosphere, determine how viruses jump species to emerge and cause disease in new hosts, and how viruses evolve new levels of virulence. The research will provide a new understanding of how viruses evolve and contribute to global ecosystems and develop new bioinformatics tools to identify and analyse highly divergent genome sequences through studying meta-transcriptomic data from diverse animal phyla, from prokaryotes and basal eukaryotes, from iconic native mammalian species and their major invasive pests. The benefits provided will include determining the viromes of native and invasive species and enhancing the efforts to protect iconic Australian species from infectious disease.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: FL180100072
Funder
Australian Research Council
Funding Amount
$3,460,832.00
Summary
Causes and consequence of human trait variation. This project aims to exploit the availability of Big Data from the genomics revolution to understand the relationship between the genome, the environment and complex human traits. New statistical methods and user-friendly software tools will be developed and applied to datasets on millions of individuals to generate new knowledge on human life history variation and healthy ageing. This project will position Australia to benefit from rapid advances ....Causes and consequence of human trait variation. This project aims to exploit the availability of Big Data from the genomics revolution to understand the relationship between the genome, the environment and complex human traits. New statistical methods and user-friendly software tools will be developed and applied to datasets on millions of individuals to generate new knowledge on human life history variation and healthy ageing. This project will position Australia to benefit from rapid advances in genomic technologies, to build and sustain critical capacity in statistical genetics, and better understand the causes and consequence of individual differences in human traits from genetic and environmental factors across the entire human lifespan.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL200100068
Funder
Australian Research Council
Funding Amount
$3,328,974.00
Summary
Australian wild animals: environmental change and quantitative genomics. This project aims to determine the effects of changing environments on wild animal populations across Australia. By combining recent advances in genomic technology with a consortium of fourteen long-term studies of mammals, birds and reptiles, it aims to quantify the genetic basis of life-history variation and the potential for evolutionary adaptation in the wild. The project will generate a comprehensive understanding of t ....Australian wild animals: environmental change and quantitative genomics. This project aims to determine the effects of changing environments on wild animal populations across Australia. By combining recent advances in genomic technology with a consortium of fourteen long-term studies of mammals, birds and reptiles, it aims to quantify the genetic basis of life-history variation and the potential for evolutionary adaptation in the wild. The project will generate a comprehensive understanding of the genetic consequences of environmental change, population decline, inbreeding and disease in natural environments. The expected benefits include a coordinated network for long-term wild animal studies in Australia, advanced quantitative skills training, and knowledge transfer for wildlife management and conservation.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL100100183
Funder
Australian Research Council
Funding Amount
$2,168,370.00
Summary
Biological adaptation under natural and anthropogenic conditions. This project covers all four national priority areas. Nature abounds with conflicts between what is good for the individual or a larger entity (a population, a society, or a species). Researching them will explain why populations adapt or fail to adapt to novel conditions (e.g., climate change) and predict when interventions are beneficial. Similar rules govern the spread of invasive species. Even health problems, e.g., new virule ....Biological adaptation under natural and anthropogenic conditions. This project covers all four national priority areas. Nature abounds with conflicts between what is good for the individual or a larger entity (a population, a society, or a species). Researching them will explain why populations adapt or fail to adapt to novel conditions (e.g., climate change) and predict when interventions are beneficial. Similar rules govern the spread of invasive species. Even health problems, e.g., new virulent strains of human, animal or plant diseases, require such evolutionary thinking. Cutting-edge mathematical tools also prepare Australians for an era in the near future where genomic data are so cheap to acquire that training in complex mathematical and logical analysis becomes a factor limiting scientific progress.Read moreRead less