Early-Stage Medical Diagnostics by Plasmon-Mediated Gas Sensing. This project will investigate the use plasmonic absorption of light in metal nanostructures to activate the selective oxidation/reduction of a gas molecule on a semiconductor nanoparticle. This concept will be used with the aim of developing a sensing technique capable of measuring ultra-low concentrations (ppb) of breath markers for lung cancer detection. It is expected that porous sensing films of semiconductor and metal nanopart ....Early-Stage Medical Diagnostics by Plasmon-Mediated Gas Sensing. This project will investigate the use plasmonic absorption of light in metal nanostructures to activate the selective oxidation/reduction of a gas molecule on a semiconductor nanoparticle. This concept will be used with the aim of developing a sensing technique capable of measuring ultra-low concentrations (ppb) of breath markers for lung cancer detection. It is expected that porous sensing films of semiconductor and metal nanoparticles with well-defined light absorption properties will be fabricated. Superior selectivity will be achieved by matching the wavelength of the absorbed light with the required activation energy for oxidation/reduction. Successful outcomes will enable multi-analyte fingerprint identification by on-chip devices with applications ranging from portable medical diagnostics to national security.Read moreRead less
Understanding The Impact Of Social, Economic And Geographic Disadvantage On The Health Of Australians In Mid - Later Lif
Funder
National Health and Medical Research Council
Funding Amount
$1,943,571.00
Summary
This research will examine the ways in which social, economic and environmental factors contribute to the health of Australians in mid to later life. It will help identify ways in which policy and preventive programs can contribute to improving health in mid to later life particularly among disadvantaged Australians. We will explore in detail social, economic and environmental factors in 100,000 people aged 45 and over; this will be the largest study of its kind ever undertaken in Australia. We ....This research will examine the ways in which social, economic and environmental factors contribute to the health of Australians in mid to later life. It will help identify ways in which policy and preventive programs can contribute to improving health in mid to later life particularly among disadvantaged Australians. We will explore in detail social, economic and environmental factors in 100,000 people aged 45 and over; this will be the largest study of its kind ever undertaken in Australia. We will examine the relationship between these social, economic factors, and lifestyle factors such as smoking, physical activity, environmental and obesity. This will enable us to identify where programs and policies should be directed to most rapidly improve the health of disadvantaged Australians.Read moreRead less
Founders and survivors: Australian lifecourses in historical context. This project will create one of the world's outstanding longitudinal studies of human health and resilience. It will contribute to the historical understanding of European migration, settler colonialism, forced labour and human health under stress, long-run family formation and falling fertility, household economy, and the social determinants of health. It will contribute to debate both nationally and internationally on the lo ....Founders and survivors: Australian lifecourses in historical context. This project will create one of the world's outstanding longitudinal studies of human health and resilience. It will contribute to the historical understanding of European migration, settler colonialism, forced labour and human health under stress, long-run family formation and falling fertility, household economy, and the social determinants of health. It will contribute to debate both nationally and internationally on the long-run effects of social and biomedical interventions and of investment in human capital. It will tell the grassroots history of the Australian penal and colonial experiments and it will form a scholarly coalition with the great community of family historians. Read moreRead less
Special Research Initiatives - Grant ID: SR0354466
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
Mathematics in Contemporary Science. The Mathematics in Contemporary Science Research Network brings contemporary methods of non-linear analysis and differential equations, geometric reasoning and relevant algebraic and topological ideas to enrich six application areas in modern science: Complex Systems, Computer Vision, Optimal Transportation, Nanotechnology, Physics and Shortest Networks. MiCS will develop both the mathematics and the application areas in parallel. It will focus on postgradu ....Mathematics in Contemporary Science. The Mathematics in Contemporary Science Research Network brings contemporary methods of non-linear analysis and differential equations, geometric reasoning and relevant algebraic and topological ideas to enrich six application areas in modern science: Complex Systems, Computer Vision, Optimal Transportation, Nanotechnology, Physics and Shortest Networks. MiCS will develop both the mathematics and the application areas in parallel. It will focus on postgraduate training through workshops, summer schools and web based resources and build long-term international collaborations with EU networks and NSERC, NSF and EPSRC institutes as well as bringing together academic and industry leaders.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100048
Funder
Australian Research Council
Funding Amount
$466,097.00
Summary
Ammonium-selective membranes to shift water industry into circular economy. The project aims to develop ammonium-selective membranes which are urgently needed in Australian key industries for sustainable ammonia recovery. The project expects to construct the membranes to achieve desirable pore size and surface functionality for fast and selective ammonia transport. The developed membranes should make ammonia recovery from wastewater more effective and sustainable, leading to the healthy waterway ....Ammonium-selective membranes to shift water industry into circular economy. The project aims to develop ammonium-selective membranes which are urgently needed in Australian key industries for sustainable ammonia recovery. The project expects to construct the membranes to achieve desirable pore size and surface functionality for fast and selective ammonia transport. The developed membranes should make ammonia recovery from wastewater more effective and sustainable, leading to the healthy waterway and reduced energy for both ammonia production and removal. Recovered ammonia expects to produce valuable products, supporting agriculture industry and hydrogen economy. The developed membranes should enable water industry's shift into circular economy, providing significant economic and environmental benefits to Australia.Read moreRead less
Development of nanoporous materials for capture and release of oxygen. This project aims to develop new materials to make lighter, more efficient oxygen concentrators. The project will combine materials that can capture oxygen with particles that can be magnetically heated, making it possible to release the oxygen rapidly and efficiently when needed. Expected outcomes from this project include new composite materials and better understanding of how gases are trapped and released within composite ....Development of nanoporous materials for capture and release of oxygen. This project aims to develop new materials to make lighter, more efficient oxygen concentrators. The project will combine materials that can capture oxygen with particles that can be magnetically heated, making it possible to release the oxygen rapidly and efficiently when needed. Expected outcomes from this project include new composite materials and better understanding of how gases are trapped and released within composite materials. Benefits from this project may include oxygen concentrators that are more portable and have longer battery life, both with industrial and medical applications.Read moreRead less