On the mechanism of boiling instability in microchannels. This project will enable designers to create highly efficient miniaturised devices based on the boiling of fluids such as water or organics. These devices include micro-power generation systems, coolers for computer chips and solar collectors, and micro-chemical process systems. Such devices provide environmental, safety and economic benefits.
New photoinitiators and polymers for tack-free LED cured surface coatings. This project aims to develop surface coatings curable by energy from Light Emitting Diodes (LEDS) by overcoming existing hurdles, while improving workplace health and safety.
The project expects to achieve this by developing a new class of photoinitiator molecules, with enhanced reactivity, via a unique understanding of synthesis, photochemistry and commercial coatings formulation.
Outcomes will be new surface coatings ....New photoinitiators and polymers for tack-free LED cured surface coatings. This project aims to develop surface coatings curable by energy from Light Emitting Diodes (LEDS) by overcoming existing hurdles, while improving workplace health and safety.
The project expects to achieve this by developing a new class of photoinitiator molecules, with enhanced reactivity, via a unique understanding of synthesis, photochemistry and commercial coatings formulation.
Outcomes will be new surface coatings for a wide range of end uses, publication in high ranking journals and commercialisation of the technology.
Benefits of this project will include elimination of mercury and reduction in exposure to solvents in the Australian workplace, and a lower energy requirement to produce high-quality surface coated products.Read moreRead less
Heat Transfer Characteristics of Biological Tissues with Nanoparticles. Heat transfer of laser-irradiated nanoparticles in biological tissues requires a basic knowledge of the unique strong resonance absorption properties and a fundamental understanding of the thermal and chemical conversions as a consequence of these heated nanoparticles. This project aims to investigate the extent of the non-equilibrium heating effects of heated nanoparticles on the destruction of biological tissues. Comprehen ....Heat Transfer Characteristics of Biological Tissues with Nanoparticles. Heat transfer of laser-irradiated nanoparticles in biological tissues requires a basic knowledge of the unique strong resonance absorption properties and a fundamental understanding of the thermal and chemical conversions as a consequence of these heated nanoparticles. This project aims to investigate the extent of the non-equilibrium heating effects of heated nanoparticles on the destruction of biological tissues. Comprehensive experimental studies and computational modelling to be performed are expected to significantly enhance the understanding of laser-induced heating phenomena of embedded nanoparticles in biological tissues and the prediction of the level of destruction that can be experienced by these heated nanoparticles.Read moreRead less
Role Of Transition Metal Ions And Redox Activity In The Development Of Atherosclerotic Plaques
Funder
National Health and Medical Research Council
Funding Amount
$196,018.00
Summary
Metal ions such as iron and copper have been reproted to be present in the lesions present in diseased human arteries and it has been suggested that these metal ions contribute to the development of atherosclerosis (hardening of the arteries) via their ability to catalyse the formation of highly reactive molecualr fragments called free radicals. Though metal ions are known to catalyse such reactions in test-tube experiments, both the presence of metal ions in diseased arteries and their ability ....Metal ions such as iron and copper have been reproted to be present in the lesions present in diseased human arteries and it has been suggested that these metal ions contribute to the development of atherosclerosis (hardening of the arteries) via their ability to catalyse the formation of highly reactive molecualr fragments called free radicals. Though metal ions are known to catalyse such reactions in test-tube experiments, both the presence of metal ions in diseased arteries and their ability to generate free radicals is controversial. This study will employ a novel, minimally-invasive, technique to assess the nature and quantity of metal ions present in well-defined human and animal lesions at different stages of lesion development. The ability of these metal ions to catalyse free radical formation from components present in the artery wall will also be assessed. The release of these metal ions from the artery wall to added organic molecules will be assessed as this might minimise their potential to cause damage, and provide a possible therapeutic strategy. These studies will therefore provide valuable information as to the significance and role of reactive metal ions in the development of human artery disease and the possible prevention, or minimisation, of such processes.Read moreRead less
Transgenerational Effects Of Male Obesity - Mechanisms And Interventions
Funder
National Health and Medical Research Council
Funding Amount
$829,143.00
Summary
Childhood obesity is associated with obesity in either parent, and obese children tend to become obese adults, forming an intergenerational cycle that promotes obesity. We have identified paternal obesity as an important novel target for intervention to stop the progression of the obesity epidemic. This project investigates supplementation of obese fathers with folate to prevent the adverse impact of paternal obesity on subsequent generations.
Design and Optimisation of Novel Enthalpy Heat Exchangers. This project deals with the thermal design and optimisation of a novel type of latent energy heat exchanger. This new heat exchanger overcomes the practical implementation problems of previous latent energy heat exchangers such as heat-wheels. The main application of this innovative heat exchanger will be to improve the capacity and efficiency of air conditioning systems. As the new heat exchanger is very compact it will be ideally sui ....Design and Optimisation of Novel Enthalpy Heat Exchangers. This project deals with the thermal design and optimisation of a novel type of latent energy heat exchanger. This new heat exchanger overcomes the practical implementation problems of previous latent energy heat exchangers such as heat-wheels. The main application of this innovative heat exchanger will be to improve the capacity and efficiency of air conditioning systems. As the new heat exchanger is very compact it will be ideally suited for integration with air conditioning coils. Existing latent heat wheels are very bulky and are difficult to integrate into standard air conditioner installations.Read moreRead less
We have discovered a single tumour factor which causes cancer cachexia, a wasting condition that is one of the worst complications of malignancy, for which there is no current effective treatment. We have developed antibodies which effectively block this condition in preclinical models and have produced human/humanised version of this. This application is to characterise these human antibodies to allow us proceed to clinical trials.
Solving Delivery Of Gene Therapy For Control Of Human Immunodeficiency Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$765,439.00
Summary
Antiretroviral therapy free control of Human Immunodeficiency Virus (HIV) infection requires control of the viral reservoir. We have a unique approach, aimed at enforcing HIV latency by targeting highly conserved regions in the viral promoter. These constructs completely silence viral transcription for long periods of time. We intend to develop & assess vectors that are specifically targeted to the reservoir and which can enforce viral latency despite immune activation or viral variation.
Design of high performance heat sink composites. Heat sink composites are advanced materials that have the very substantial but widely untapped potential to reduce Society's energy consumption by means of utilizing waste energy or through energy-efficient temperature control. This Project uses computational analysis and parallel experimentation to design optimum heat-sink composites for highly energy-efficient temperature control of chemical batteries or electronic components as well as the mean ....Design of high performance heat sink composites. Heat sink composites are advanced materials that have the very substantial but widely untapped potential to reduce Society's energy consumption by means of utilizing waste energy or through energy-efficient temperature control. This Project uses computational analysis and parallel experimentation to design optimum heat-sink composites for highly energy-efficient temperature control of chemical batteries or electronic components as well as the means for the efficient heating/cooling of buildings. The outcomes of the project will lay the scientific foundation for the industrial scale development of advanced heat sinks that will lower energy costs and decrease climate changing emissions. This represents a new market for Australian industry.Read moreRead less
Analysis, simulation, fabrication and characterization of reliable, robust and scalable compact cooling elements based on semiconductor nanostructures. Modern electronic, microelectronic and optoelectronic devices generally work better when they are cooler. We aim to develop a semiconductor nanostructure cooling element which directly integrates into existing devices. The solid-state cooling element will be reliable, robust, scalable and operate in any orientation. The basis of operation is ....Analysis, simulation, fabrication and characterization of reliable, robust and scalable compact cooling elements based on semiconductor nanostructures. Modern electronic, microelectronic and optoelectronic devices generally work better when they are cooler. We aim to develop a semiconductor nanostructure cooling element which directly integrates into existing devices. The solid-state cooling element will be reliable, robust, scalable and operate in any orientation. The basis of operation is thermionic emission - electrons are the working fluid. Our project combines (1) analysis and simulation, (2) fabrication of nanostructures and (3) experimental test-benching using optical and electrical methods. The outcome of this research has the potential to revolutionize cooling of modern electronic and photonic systems, from computer motherboards to mobile phones.Read moreRead less