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Dendritic Organic Semiconductors. This Federation Fellowship, along with the creation of a Centre for Organic Semiconductor Research at The University of Queensland will enable Australian science to have a high profile in organic semiconductors. This is an important scientific and technological goal and the research programme will provide expertise for industry in Australia as well as potentially creating technologies for new industry. It will also provide a focus for other academic institutions ....Dendritic Organic Semiconductors. This Federation Fellowship, along with the creation of a Centre for Organic Semiconductor Research at The University of Queensland will enable Australian science to have a high profile in organic semiconductors. This is an important scientific and technological goal and the research programme will provide expertise for industry in Australia as well as potentially creating technologies for new industry. It will also provide a focus for other academic institutions in Australia by bringing together people with the requisite expertise in materials preparation, characterisation, modelling, photophysics, and device physics and engineering. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560679
Funder
Australian Research Council
Funding Amount
$932,870.00
Summary
Materials and Surface Characterisation Facility. Australian scientists are well positioned to be at the forefront of nanotechnology, biotechnology and advanced materials development. The proposed Facility, housing state-of-the-art equipment, will enable cutting-edge research in these areas by internationally renowned researchers at the University of Melbourne, Monash University, RMIT University, and CSIRO. Such research will facilitate the development of advanced materials for diverse applicatio ....Materials and Surface Characterisation Facility. Australian scientists are well positioned to be at the forefront of nanotechnology, biotechnology and advanced materials development. The proposed Facility, housing state-of-the-art equipment, will enable cutting-edge research in these areas by internationally renowned researchers at the University of Melbourne, Monash University, RMIT University, and CSIRO. Such research will facilitate the development of advanced materials for diverse applications including drug delivery, quantum computing, photonics and tissue engineering. The multi-user Facility will enable closer collaboration with researchers in academia and industry, and will be integral in training the next generation of Australian scientists in the nano- and biosciences.Read moreRead less
Controlled Macromolecular Architectures for Functional Nanomaterials Design. The research involves an exciting and innovative collaboration between two internationally recognized Australian research groups, cementing Australia's position as a leading country for research in polymer science and nanotechnology. Advanced polymer chemistry will be used to make ?smart? polymers that can controllably respond to changes in their surroundings. These will then be assembled to form materials with dimensio ....Controlled Macromolecular Architectures for Functional Nanomaterials Design. The research involves an exciting and innovative collaboration between two internationally recognized Australian research groups, cementing Australia's position as a leading country for research in polymer science and nanotechnology. Advanced polymer chemistry will be used to make ?smart? polymers that can controllably respond to changes in their surroundings. These will then be assembled to form materials with dimensions of the order of millionths of millimeters - forming so-called "smart nanomaterials". The materials prepared are expected to find application in the agricultural and pharmaceutical sectors, contributing to the well-being of Australian citizens and the development of a robust Australian industry.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100104
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Capability for the fabrication and characterisation of mid-infrared photonic materials. The proposed facility will support the development of new glass materials suitable for transmitting and generating light in the mid-infrared spectral region. This research will allow Australia to lead the world in developing new technologies that make use of the mid-infrared region of the electromagnetic spectrum. Particular applications that will flow from this research include the development of new optical ....Capability for the fabrication and characterisation of mid-infrared photonic materials. The proposed facility will support the development of new glass materials suitable for transmitting and generating light in the mid-infrared spectral region. This research will allow Australia to lead the world in developing new technologies that make use of the mid-infrared region of the electromagnetic spectrum. Particular applications that will flow from this research include the development of new optical fibre-based laser sources for defence and surgery, new technologies for detecting and treating cancer, and other in-vivo detection methods.Read moreRead less
Advanced nanoparticle stabilisation and functionalisation: small particles with huge potential. Australia is strongly investing in nanotechnology and through the governments priority goals 'Frontier Technologies for Building and Transforming Australian Industries' it has been recognised as an important area for investment. This proposal will help develop an internationally recognised nano-industry. It is envisaged that the particles made during this work will have direct implications for the pub ....Advanced nanoparticle stabilisation and functionalisation: small particles with huge potential. Australia is strongly investing in nanotechnology and through the governments priority goals 'Frontier Technologies for Building and Transforming Australian Industries' it has been recognised as an important area for investment. This proposal will help develop an internationally recognised nano-industry. It is envisaged that the particles made during this work will have direct implications for the public - creating a new class of medical diagnostic particles with better resolution and specificity. These particles have the potential to diagnose patients more precisely and at an earlier stage than is currently available. Additionally, these particles could be designed to load drugs and hence could be used to treat diseases such as cancer.Read moreRead less
Synthesis and Functionalisation of Advanced Polymer Films and Particles. Scientific and technological advances at the frontiers of nano- and biotechnology are poised to revolutionise the scope of treatment and healthcare options. This project will involve the synthesis of engineered polymer building blocks with the capability for multifunctional and intelligent response. These smart polymers will then be assembled into responsive nanostructured materials for drug delivery and biosensing applica ....Synthesis and Functionalisation of Advanced Polymer Films and Particles. Scientific and technological advances at the frontiers of nano- and biotechnology are poised to revolutionise the scope of treatment and healthcare options. This project will involve the synthesis of engineered polymer building blocks with the capability for multifunctional and intelligent response. These smart polymers will then be assembled into responsive nanostructured materials for drug delivery and biosensing applications. These materials are expected to have health benefits for Australian citizens and will contribute to a world-leading nanobiotechnology industry. The project will also provide development opportunities for young scientists and will also foster multidisciplinary collaborations within both Australia and abroad.Read moreRead less
Development of an active noise control system for sleeper seats on large commercial aircraft. Possible avenues will be investigated to actively reduce aircraft cabin noise experienced by passengers in sleeper seats, using localised active noise control (ANC). Previous work has focused on headsets and upright seat headrests which represent a different problem to the partially enclosed sleeper seats considered here. Efficiency and robustness problems that affect existing ANC systems will be addres ....Development of an active noise control system for sleeper seats on large commercial aircraft. Possible avenues will be investigated to actively reduce aircraft cabin noise experienced by passengers in sleeper seats, using localised active noise control (ANC). Previous work has focused on headsets and upright seat headrests which represent a different problem to the partially enclosed sleeper seats considered here. Efficiency and robustness problems that affect existing ANC systems will be addressed. A prototype system will be produced for a business class sleeper seat in a wide body aircraft. A second outcome is the establishment of a robust integrated system design procedure that can be used to quickly develop ANC systems for future designs.Read moreRead less
Practical wall-turbulence drag reduction through adaptive control. Long term increases in the price of aviation fuel disproportionately impacts on Australian carriers, given our geographic isolation and the resulting greater percentage of long-haul flights. The resulting higher fares will also have a direct impact on international tourism to Australia. One way to reduce the impact of rising fuel cost, and to reduce CO2 and other emissions at the same time, is to decrease drag on aircraft. This ....Practical wall-turbulence drag reduction through adaptive control. Long term increases in the price of aviation fuel disproportionately impacts on Australian carriers, given our geographic isolation and the resulting greater percentage of long-haul flights. The resulting higher fares will also have a direct impact on international tourism to Australia. One way to reduce the impact of rising fuel cost, and to reduce CO2 and other emissions at the same time, is to decrease drag on aircraft. This project will develop understanding in wall turbulence and adaptive control, and use this to experimentally demonstrate active reductions in skin friction drag. The results are equally applicable to a range of other applications including sea transport, pipe flows and combustor designs.Read moreRead less
Interfacial Nanofluids. The fundamental understanding of Colloid and Surface Chemistry will be significantly enhanced through the understanding of the formation and properties of interfacial nanofluids. In addition, this project will provide the knowledge of the influence of nanofluids on the lubrication and the surface interaction. The future results will likely have great impact on the development of miniature devices, lab-on-a-chip and microfludics or nanofluidics systems, water treatment, m ....Interfacial Nanofluids. The fundamental understanding of Colloid and Surface Chemistry will be significantly enhanced through the understanding of the formation and properties of interfacial nanofluids. In addition, this project will provide the knowledge of the influence of nanofluids on the lubrication and the surface interaction. The future results will likely have great impact on the development of miniature devices, lab-on-a-chip and microfludics or nanofluidics systems, water treatment, minerals processing, the food industries, pumping of fuel and water, and other processes. And the research described in this proposal will help to maintain the high international profile of Australian science in the field of Colloid and Surface Research. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882471
Funder
Australian Research Council
Funding Amount
$430,000.00
Summary
Three-Dimensional Optical Laser Velocimetry for the HRNBLWT (High Reynolds Number Boundary Layer Wind Tunnel). The experimental information that can be gained from this infrastructure would lead to significant advances in understanding turbulent flows, which would impact a broad range of engineering and geophysical fields. Some specific examples include the development of efficient turbulence control strategies for the reduction of skin-friction drag and improved combustion processes, resulting ....Three-Dimensional Optical Laser Velocimetry for the HRNBLWT (High Reynolds Number Boundary Layer Wind Tunnel). The experimental information that can be gained from this infrastructure would lead to significant advances in understanding turbulent flows, which would impact a broad range of engineering and geophysical fields. Some specific examples include the development of efficient turbulence control strategies for the reduction of skin-friction drag and improved combustion processes, resulting in not only better fuel efficiency for vehicles but also reduced CO2 and pollutant emissions. Significant advances could also be made in the area of understanding the dispersion of particles, including pollutants, in the atmosphere; wind turbine design and implementation strategies, and climate change modelling.Read moreRead less