Discovery Early Career Researcher Award - Grant ID: DE210100473
Funder
Australian Research Council
Funding Amount
$462,573.00
Summary
Breaking Performance Limits of Solar Inverters for a Sustainable Future. Micro-inverters offer a unique ability to maximise solar energy yield and streamline the installation, operation and maintenance process of solar power generation, thus having huge potentials to drastically reduce the cost of solar electricity. However, performance limits have hampered their wider applications in the energy sector. This project aims to tackle the performance challenges of micro-inverters by developing a nov ....Breaking Performance Limits of Solar Inverters for a Sustainable Future. Micro-inverters offer a unique ability to maximise solar energy yield and streamline the installation, operation and maintenance process of solar power generation, thus having huge potentials to drastically reduce the cost of solar electricity. However, performance limits have hampered their wider applications in the energy sector. This project aims to tackle the performance challenges of micro-inverters by developing a novel power-conversion architecture, a unified design framework, and a new control theory. The intended research outcome will be a new range of ultra-high-performance micro-inverters. This will promote greater solar uptake and maintain Australia’s leadership in the development of disruptive solar power generation technology.Read moreRead less
Need for Speed: Towards Controller Design Automation for Power Electronics. This project aims to address the need for advanced controller design automation tools for power electronics systems by advocating a novel design paradigm. The project expects to seek breakthroughs in the modelling and optimisation aspects of power electronics systems and generate new automation tools for existing and emerging power electronics applications. Expected outcome include significant reduction of controller dev ....Need for Speed: Towards Controller Design Automation for Power Electronics. This project aims to address the need for advanced controller design automation tools for power electronics systems by advocating a novel design paradigm. The project expects to seek breakthroughs in the modelling and optimisation aspects of power electronics systems and generate new automation tools for existing and emerging power electronics applications. Expected outcome include significant reduction of controller development cycle time and cost, minimisation of human oversight, and maximisation of system performance. Profound benefits include maintaining Australia’s leadership in a wide range of sectors such as renewable energy and electric vehicles demanding rapid development cycles and realisation of Australia’s zero-carbon vision. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100629
Funder
Australian Research Council
Funding Amount
$365,058.00
Summary
Evolutionary impacts of climate change in Australia’s fossil record. This project aims to identify evolutionary responses to climate change in Australia's fossil record by comparing variation in lizard and frog communities across geological time. Using X-ray techniques on museum specimens, this project will generate a large-scale database for tracking evolutionary shifts in relation to historical climatic events. Expected outcomes include the first anatomical descriptions for many species, filli ....Evolutionary impacts of climate change in Australia’s fossil record. This project aims to identify evolutionary responses to climate change in Australia's fossil record by comparing variation in lizard and frog communities across geological time. Using X-ray techniques on museum specimens, this project will generate a large-scale database for tracking evolutionary shifts in relation to historical climatic events. Expected outcomes include the first anatomical descriptions for many species, filling major gaps in our ability to place fossils in a contemporary framework. This research will demonstrate the value of our national collections for addressing important environmental issues, such as biodiversity, extinction, and future habitat change.Read moreRead less
High performance inks for solution based organic light emitting diodes manufacturing. This project aims to introduce an advanced solution processing and printing technique for organic light emitting diode (OLED) fabrication based on a set of innovative macromolecular chemistries. These proceed either photochemically or thermally, exploiting precision macromolecular designs of the polymer precursor materials, which contain advanced emitter systems developed by Cynora. Solution fabrication of OLED ....High performance inks for solution based organic light emitting diodes manufacturing. This project aims to introduce an advanced solution processing and printing technique for organic light emitting diode (OLED) fabrication based on a set of innovative macromolecular chemistries. These proceed either photochemically or thermally, exploiting precision macromolecular designs of the polymer precursor materials, which contain advanced emitter systems developed by Cynora. Solution fabrication of OLED is a challenging, yet ultimately powerful, process with key advantages over current vacuum processing systems, especially with regard to production flexibility, cost and OLED size. The project will provide a functioning technology platform for solution OLED fabrication.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100741
Funder
Australian Research Council
Funding Amount
$372,386.00
Summary
How genomics is shaping healthcare: an ethnographic study. This project aims to generate new understandings of how science and biomedicine are co-producing and shaping healthcare. This will be achieved by combining hospital and laboratory ethnography to examine how genomic data is produced, circulated and applied in clinical settings. The project aims to build a theoretical framework and conceptual understanding of genomic medicine that may be used by practitioners and may inform policy. This pr ....How genomics is shaping healthcare: an ethnographic study. This project aims to generate new understandings of how science and biomedicine are co-producing and shaping healthcare. This will be achieved by combining hospital and laboratory ethnography to examine how genomic data is produced, circulated and applied in clinical settings. The project aims to build a theoretical framework and conceptual understanding of genomic medicine that may be used by practitioners and may inform policy. This project should provide significant benefits such as minimising costs by helping identify and streamline decision-making processes, and by showing how public engagement practices shape patients' and practitioners' approaches to genomics.Read moreRead less
Smart magnetic resonance imaging (MRI) contrast agents: from early detection to assessment of drug delivery mechanisms. 'Smart' contrast agents will be developed for enhancing the performance of magnetic resonance imaging (MRI) of diseases such as cancer by designing them to be triggered by biochemical markers for disease. This has the potential to aid in early detection which can lead to lower mortality rates and consequently a lower burden on the health system.
Traceable theranostics: tools for visualising drug delivery and therapeutic benefit in vivo. Forty-three thousand people died from cancer in Australia in 2010. The aim of this project is to advance the concept of 'personalised-therapy' through the development of novel imaging devices based on polymers that can 'switch-on' and deliver drugs in specific tissues, allowing more sensitive and earlier detection and monitoring of diseases and therapies.
Smart materials from semi-soft particles. This project will combine precision polymer chemistry to material science to develop structured nanoparticles for applications in photonics and shape memory materials.
The technological transformation of sex: improving Australia's response. This project aims to enhance knowledge and explore important implications of new digital, mechanical or medical technologies that are transforming the sexual lives of many Australians. Privacy breaches and online harassment are among the challenges posed by these new technologies. The project intends to identify potential solutions to emerging problems as well as areas of policy, legal or educational systems that might faci ....The technological transformation of sex: improving Australia's response. This project aims to enhance knowledge and explore important implications of new digital, mechanical or medical technologies that are transforming the sexual lives of many Australians. Privacy breaches and online harassment are among the challenges posed by these new technologies. The project intends to identify potential solutions to emerging problems as well as areas of policy, legal or educational systems that might facilitate or mitigate their implementation. Expected outcomes include new evidence regarding the use of technologies in the sexual lives of Australians. This project can directly benefit people requiring an evidence base for policy development, law and regulation (including consumer protection), cyber-security and sex-education.Read moreRead less
Remediation of groundwater using permeable reactive barriers. Permeable reactive barriers are passive subsurface installations that remove contamination from groundwater as it flows through a reactive substrate. This project will develop new permeable reactive barriers that will benefit the nation by building skills and knowledge in an area of growth in Australian industry, namely the rehabilitation of industrial lands and the protection and remediation of Australia's critical groundwater source ....Remediation of groundwater using permeable reactive barriers. Permeable reactive barriers are passive subsurface installations that remove contamination from groundwater as it flows through a reactive substrate. This project will develop new permeable reactive barriers that will benefit the nation by building skills and knowledge in an area of growth in Australian industry, namely the rehabilitation of industrial lands and the protection and remediation of Australia's critical groundwater sources. The project is aimed at remediating an industrially contaminated site in the Hunter Valley, New South Wales, thereby contributing to the environmental improvement of that region. The technology developed will have wide application to other sites, both nationally and internationally.Read moreRead less