Modulation of air-conditioning settings to destroy respiratory viruses. This project aims to prove that manipulating the ambient humidity can rapidly degrade airborne viruses. The relationship between ambient humidity and airborne infection is poorly understood for viral pathogens including influenza and the common cold. The project will prove that indoor environmental conditions can be easily manipulated to kill airborne viruses. The findings will be used to develop indoor air humidity control ....Modulation of air-conditioning settings to destroy respiratory viruses. This project aims to prove that manipulating the ambient humidity can rapidly degrade airborne viruses. The relationship between ambient humidity and airborne infection is poorly understood for viral pathogens including influenza and the common cold. The project will prove that indoor environmental conditions can be easily manipulated to kill airborne viruses. The findings will be used to develop indoor air humidity control guidelines targeting the vulnerabilities of the viruses to minimise airborne infection.Read moreRead less
Spin tunnelling transport and quantum effects in magnetic nanostructures. A new field of "spintronics" takes advantage of the spin of electrons and revolutionises electronics leading to quantum devices. By understanding the behaviour of electron spin in materials we can learn new fundamentals in solid-state physics that will lead to a new generation of electronic, optoelectronic and magneto-electronic devices. The aim of this project is to study the spin tunnelling transport and noise, and relat ....Spin tunnelling transport and quantum effects in magnetic nanostructures. A new field of "spintronics" takes advantage of the spin of electrons and revolutionises electronics leading to quantum devices. By understanding the behaviour of electron spin in materials we can learn new fundamentals in solid-state physics that will lead to a new generation of electronic, optoelectronic and magneto-electronic devices. The aim of this project is to study the spin tunnelling transport and noise, and related quantum effects in various magnetic nanostructures, such as ferromagnet/semiconductor/ferromagnet junctions, using quantum statistics approsches. The outcome of the project is of considerable relevance to the researches of nanostructure and quantum information/computation in Australia.Read moreRead less
Role Of HtrA And RseP, Stress Response Proteases, In Development And Persistence Of Chlamydia Trachomatis Infections
Funder
National Health and Medical Research Council
Funding Amount
$389,984.00
Summary
This project will research the most commonly reported bacterial sexually transmitted infection Chlamydia trachomatis. Bacterial proteins which could play a role in chronic infections of humans will be investigated. Proteins will be biologically examined to determine their role during disease. This may identify proteins which could be used for diagnostic and therapeutic tools to prevent chronic Chlamydia infection (which can result in infertility and other serious conditions).
Hydrogen Absorption by Nanostructured Carbons. Carbon-based materials show great promise for clean energy storage through the absorption and desorption of hydrogen. The project aims to use powerful theoretical and experimental methods to resolve the controversy that surrounds reports of massive hydrogen absorption by nanostructured carbons, by understanding why particular structures should or should not absorb hydrogen atoms or molecules. We will particularly study and model intercalated graphit ....Hydrogen Absorption by Nanostructured Carbons. Carbon-based materials show great promise for clean energy storage through the absorption and desorption of hydrogen. The project aims to use powerful theoretical and experimental methods to resolve the controversy that surrounds reports of massive hydrogen absorption by nanostructured carbons, by understanding why particular structures should or should not absorb hydrogen atoms or molecules. We will particularly study and model intercalated graphite and nanotubes made in Australia. Their hydrogen capacity will be compared to the US DOE target of 6.5 weight percent for viable automotive hydrogen fuel storage. Reproducibly exceeding this target would constitute a great advance in the field.Read moreRead less
Squamous cell carcinoma of the skin is extremely common in Australia, resulting in disfiguring surgeries and deaths. Although cumulative sun exposure is important, some people are very susceptible, and we do not know why. This project hinges on the notion that skin cancer is a complex (many genes involved). We will utilize novel systems to harness this complexity to understand why some people are resistant and others very susceptible so as to design appropriate control measures and treatments.
A Novel Role For The IL-2 Pathway In Type-1-diabetes.
Funder
National Health and Medical Research Council
Funding Amount
$548,548.00
Summary
Genes encoding IL-2 and its receptor are strongly linked to susceptibility to multiple autoimmune diseases, including type-1-diabetes. Despite the importance of this pathway in the immune system, it is not yet understood how the associated genes affect disease. In this study, a novel function for IL-2 expression by dendritic cells in normal self-tolerance is investigated. The impacts of dendritic cell produced IL-2 expression and linkage to autoimmunity will be elucidated in both mouse and man.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668510
Funder
Australian Research Council
Funding Amount
$180,240.00
Summary
Nanostructure Deposition Facility. New electronic devices and materials that exploit the properties of nanostructured surfaces are predicted to have a major impact on everyday life in areas such as information technology, biotechnology and healthcare. The Nanostructure Deposition Facility (NDF) is a unique facility, providing access to the highly specialised deposition equipment required to fabricate these important nanostructured surfaces from a variety of materials. The NFDL represents a major ....Nanostructure Deposition Facility. New electronic devices and materials that exploit the properties of nanostructured surfaces are predicted to have a major impact on everyday life in areas such as information technology, biotechnology and healthcare. The Nanostructure Deposition Facility (NDF) is a unique facility, providing access to the highly specialised deposition equipment required to fabricate these important nanostructured surfaces from a variety of materials. The NFDL represents a major new joint venture between seven Australian institutions and will provide these researchers with the essential tools for developing new electronic devices, biosensors, detectors and solar cells based on nanotechnology.Read moreRead less
Microeconomic effects of Australian natural disasters. This project aims to describe and identify the effects of Australian natural disasters – such as the Black Saturday bushfires and the Brisbane floods – on important microeconomic outcomes, including health, education and employment. Natural disasters have profound economic and social effects on individuals and communities. This project intends to bring evidence on how disasters affect individuals and how the effects can be lessened. The proj ....Microeconomic effects of Australian natural disasters. This project aims to describe and identify the effects of Australian natural disasters – such as the Black Saturday bushfires and the Brisbane floods – on important microeconomic outcomes, including health, education and employment. Natural disasters have profound economic and social effects on individuals and communities. This project intends to bring evidence on how disasters affect individuals and how the effects can be lessened. The project expects to inform policy-makers on these critical issues by analysing field, survey and administrative data on individuals before and after past disasters.Read moreRead less
Non-equilibrium material phases. This project aims to synthesise and characterise exotic materials produced in the laboratory under conditions that replicate those inside planets and stars. Highly non-equilibrium processing methods are needed to find entirely new material forms of elements and compounds created under extreme pressure and temperature. The project will use its laser-based synthesis method to explore and understand the non-equilibrium pathways and develop new materials. Understandi ....Non-equilibrium material phases. This project aims to synthesise and characterise exotic materials produced in the laboratory under conditions that replicate those inside planets and stars. Highly non-equilibrium processing methods are needed to find entirely new material forms of elements and compounds created under extreme pressure and temperature. The project will use its laser-based synthesis method to explore and understand the non-equilibrium pathways and develop new materials. Understanding how these materials form could lead to the next materials revolution. This research will lead to materials that industry sectors can exploit for commercial benefits.Read moreRead less