Fatigue in Lead-free Piezoceramics. This project aims are to achieve a fundamental understanding of the fatigue behaviour of lead-free piezoelectric ceramics which achieve high strain through phase transformations and then ascertain the effects of this behaviour on material degradation rates. The expected outcomes will facilitate replacement of toxic lead in commodity electronics. The focus will be on new lead-free bismuth-alkali-based piezoelectric ceramic systems which demonstrate exciting pot ....Fatigue in Lead-free Piezoceramics. This project aims are to achieve a fundamental understanding of the fatigue behaviour of lead-free piezoelectric ceramics which achieve high strain through phase transformations and then ascertain the effects of this behaviour on material degradation rates. The expected outcomes will facilitate replacement of toxic lead in commodity electronics. The focus will be on new lead-free bismuth-alkali-based piezoelectric ceramic systems which demonstrate exciting potential as alternate materials to lead zirconate titanate (PZT) materials. Successful optimisation of the materials' design and knowledge of their degradation rates are expected to facilitate their commercialisation through a profound reduction in the environmental challenges associated with manufacture and disposal of devices.Read moreRead less
Industrial High Efficiency Solar Cells. Photovoltaics is a promising candidate for sustainable energy generation, with Australia well-placed to capture the economic and environmental benefits from maintaining its strong position with this technology. Suntech, a world-leader in silicon solar cell production with US$2 billion annual revenue, will provide a “high profile” showplace for the developed patterning technology. This will enhance commercial opportunities arising from the project and confi ....Industrial High Efficiency Solar Cells. Photovoltaics is a promising candidate for sustainable energy generation, with Australia well-placed to capture the economic and environmental benefits from maintaining its strong position with this technology. Suntech, a world-leader in silicon solar cell production with US$2 billion annual revenue, will provide a “high profile” showplace for the developed patterning technology. This will enhance commercial opportunities arising from the project and confirm Australia’s reputation as a world leader in innovative photovoltaic research. This reputation attracts high-calibre professionals to Australia, stimulates local research and will provide opportunities for local manufacturing to exploit the technology developed as part of this project.Read moreRead less
Using extreme conditions to synthesise new materials. This project aims to synthesise useful materials from non-crystalline light element precursors. Boron, carbon and nitrogen are the hardest known solids, and their ability to form many kinds of chemical bonds offers opportunities for attractive new materials. This project will apply high pressures and temperatures to non-crystalline precursor materials to access previously unobtainable synthesis conditions. This project will create strong and ....Using extreme conditions to synthesise new materials. This project aims to synthesise useful materials from non-crystalline light element precursors. Boron, carbon and nitrogen are the hardest known solids, and their ability to form many kinds of chemical bonds offers opportunities for attractive new materials. This project will apply high pressures and temperatures to non-crystalline precursor materials to access previously unobtainable synthesis conditions. This project will create strong and hard materials with tuneable optical and electronic properties. The expected outcome is new light materials that emit and detect light in the far ultraviolet for biological imaging and tough materials with low friction needed for motors and regenerative technologies.Read moreRead less
High performance durable perovskite solar cells for space applications . There has been a rapid growth in space exploration and experimentation fuelled by global support. Space hardware needs to be powered by a sustainable source of energy. The use of solar photovoltaics is the preferred choice. As we move into the era of 'commercial space', cost will become paramount necessitating the development of new cost effective photovoltaic technologies. Metal halide perovskite solar cells show the great ....High performance durable perovskite solar cells for space applications . There has been a rapid growth in space exploration and experimentation fuelled by global support. Space hardware needs to be powered by a sustainable source of energy. The use of solar photovoltaics is the preferred choice. As we move into the era of 'commercial space', cost will become paramount necessitating the development of new cost effective photovoltaic technologies. Metal halide perovskite solar cells show the greatest potential. They have a higher power to weight ratio and are significantly cheaper to be manufactured compared to incumbent space cells. This project aims to develop and demonstrate perovskite solar cells to achieve high areal power conversion efficiencies and long operating lifetimes withstanding space environment. Read moreRead less
Stable perovskite-unlocking the full potential of low-cost solar cells. Despite impressive conversion efficiency, the perovskites' poor stability impedes their commercialization. This project aims to develop strategies for stable perovskite solar cells. This will be realized by a thorough understanding of the degradation origins with stimuli, and development of degradation mitigation strategies including materials and interfaces engineering, defect control and passivation, synergized by a system ....Stable perovskite-unlocking the full potential of low-cost solar cells. Despite impressive conversion efficiency, the perovskites' poor stability impedes their commercialization. This project aims to develop strategies for stable perovskite solar cells. This will be realized by a thorough understanding of the degradation origins with stimuli, and development of degradation mitigation strategies including materials and interfaces engineering, defect control and passivation, synergized by a systematic degradation evaluation, state-of-art multi-scale material and device characterizations and device modeling providing feedback for optimization. The project will bring new scientific findings, key technological step-change solutions, unlocking the full potential of perovskites for cheaper photovoltaic technologies.
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Improved design and control of brushless doubly-fed reluctance machine generators for wind power applications. The growing importance of the reduction in greenhouse gas emissions over the coming years is driving the increased usage of renewable energy sources such as wind power. Currently the cost of wind energy is considerably higher than fossil fuel energy sources. Part of the reason for this is the initial cost and ongoing maintenance of the wind turbines. The proposed research considers a n ....Improved design and control of brushless doubly-fed reluctance machine generators for wind power applications. The growing importance of the reduction in greenhouse gas emissions over the coming years is driving the increased usage of renewable energy sources such as wind power. Currently the cost of wind energy is considerably higher than fossil fuel energy sources. Part of the reason for this is the initial cost and ongoing maintenance of the wind turbines. The proposed research considers a new kind of generator based on the Brushless Doubly Fed Machine (BDFRM) that has the potential to lower the initial cost of the generator/inverter hardware of the wind turbine, and also decrease the ongoing maintenance costs. If the research is able to show that the BDFRM is able to realise its potential, then this will aid the further use of wind energy.Read moreRead less
A high performance, robust and sensorless Natural Field Oriented controller for induction machine drives. Natural Field Orientation (NFO) is a technique of field oriented control of AC machines that is potentially very robust, able to operate at low speeds, and inherently sensorless. However, it is a little known fact that under regenerative conditions the algorithm is unstable. The primary aim of this project is to develop a NFO algorithm that is stable under regeneration, and has minimum depen ....A high performance, robust and sensorless Natural Field Oriented controller for induction machine drives. Natural Field Orientation (NFO) is a technique of field oriented control of AC machines that is potentially very robust, able to operate at low speeds, and inherently sensorless. However, it is a little known fact that under regenerative conditions the algorithm is unstable. The primary aim of this project is to develop a NFO algorithm that is stable under regeneration, and has minimum dependence on machine parameters. If these aims are achieved the NFO algorithm would be a significant addition to control algorithms for AC machines, allowing their use in a broader range of applications.
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In-field assessment and lifetime prediction of composite insulators in high voltage electricity transmission networks. New types of composite insulators are now used in extra-high voltage overhead lines in Australia's national electricity grid. Flashover of such insulators due to early ageing may lead to unavailability of vital lines causing power transmission disruptions costing the National Electricity Market tens of millions of dollars.
In this project research will be conducted into agei ....In-field assessment and lifetime prediction of composite insulators in high voltage electricity transmission networks. New types of composite insulators are now used in extra-high voltage overhead lines in Australia's national electricity grid. Flashover of such insulators due to early ageing may lead to unavailability of vital lines causing power transmission disruptions costing the National Electricity Market tens of millions of dollars.
In this project research will be conducted into ageing of elastomers to provide early warning of insulator end-of-life and into new techniques for extracting elastomer samples from live high voltage insulators. Transgrid will cooperate in the application of the technology to give improved understanding of insulator ageing in transmission networks.
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THE EFFECTS OF TRANSCRANIAL MAGNETIC STIMULATION (TMS) ON RAT MODELS OF DEPRESSION
Funder
National Health and Medical Research Council
Funding Amount
$204,274.00
Summary
Repetitive Transcranial Magnetic Stimulation (rTMS) is the direct stimulation of the brain by using high field magnetic pulses. It is a new technique that has been demonstrated to have some potential as a treatment of depressive illness and possibly other neuropsychiatric disorders. At this early stage of its investigation, the parameters of stimulation that are most likely to be therapeutic, and its mechanisms of action, are not known. Published studies vary in the frequency, duration and exten ....Repetitive Transcranial Magnetic Stimulation (rTMS) is the direct stimulation of the brain by using high field magnetic pulses. It is a new technique that has been demonstrated to have some potential as a treatment of depressive illness and possibly other neuropsychiatric disorders. At this early stage of its investigation, the parameters of stimulation that are most likely to be therapeutic, and its mechanisms of action, are not known. Published studies vary in the frequency, duration and extent of stimulation, with no firm guidelines about optimal parameters. Empirical study of the relative effects of stimulation at different frequencies, at different numbers of stimuli and for different durations is therefore important for the future development of this treatment. Such an investigation is best carried out in an animal model of depression for both ethical and practical reasons, as such studies in patients would possibly take many years and be extremely difficult to conduct. We propose such a study in rat models of depression which have demonstrated validity and utility in drug research. Rat models have a long track record in developing psychiatric treatments and are cost-effective and of proven value. We also plan to investigate the neuroanatomy of the immediate-early genes induced by TMS and compare it with electroconvulsive shock (ECS) and a tricyclic antidepressant, two established treatments of depression. The results will have implications for future human studies in guiding us toward the optimal parameters for therapeutic effects. They will also enhance our understanding of the mechanism of action of TMS in depression.Read moreRead less
Application Of Intelligent Conducting Polymers For Treating Schizophrenia And Allied Disorders Focusing On Neuronal Outgrowth, Myelination And Synaptogenesis
Funder
National Health and Medical Research Council
Funding Amount
$698,314.00
Summary
This project involves cross-disciplinary collaboration between researchers at the forefront of materials engineering, nanotechnology, neural pathology, human stem cell biology and mental health disciplines. We will use a nanodevice to apply electrical stimuli and growth factors to improve brain function in schizophrenia and allied disorders.