Kesterite solar cell coated architectural stainless steel. This project aims to develop cost-effective, high-performance kesterite architectural stainless steel coated with solar cells for application in roofing, skin and facades of smart buildings. The project will integrate expertise in producing kesterite solar cells with expertise in manufacturing new steel to eliminate toxic, scarce materials and high-cost processes employed in conventional solar-driven steel. The initial target of the proj ....Kesterite solar cell coated architectural stainless steel. This project aims to develop cost-effective, high-performance kesterite architectural stainless steel coated with solar cells for application in roofing, skin and facades of smart buildings. The project will integrate expertise in producing kesterite solar cells with expertise in manufacturing new steel to eliminate toxic, scarce materials and high-cost processes employed in conventional solar-driven steel. The initial target of the project would be to increase kesterite cell efficiency to beyond 10 per cent, and ultimately beyond 17 per cent, but still at a low cost.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100229
Funder
Australian Research Council
Funding Amount
$230,000.00
Summary
Carbon-free high temperature vacuum sintering facility. This facility will provide an extremely clean sintering environment for development of advanced materials free from imperfections for applications which range from energy conversion to medical components. It will ensure that Australia is an important international leader in both fundamental research and industrial innovation.
Liquids to semiconductors: the formation of solution-processed electronics. This project aims to understand and control the formation of solution-processed organic semiconductors. This project will create unique experimental methodologies to study, in situ, the evolution of the structure and the emergence of electrical transport all the way from the initial solution to the final film. These findings will be used to formulate design rules and principles that will accelerate the development of sol ....Liquids to semiconductors: the formation of solution-processed electronics. This project aims to understand and control the formation of solution-processed organic semiconductors. This project will create unique experimental methodologies to study, in situ, the evolution of the structure and the emergence of electrical transport all the way from the initial solution to the final film. These findings will be used to formulate design rules and principles that will accelerate the development of solution-processed semiconductors beyond current trial-and-error approaches. This will provide significant benefits, such as unlocking the potential of soft and flexible semiconductors for new technologies based on sustainable manufacturing.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100141
Funder
Australian Research Council
Funding Amount
$326,367.00
Summary
Thermo-gravimetric infra-red imaging system for functional materials study. This proposal seeks to establish a multi-functional system for investigating surface, interface, and thermal properties of functional materials. The instrumentation features thermo-gravimetric, infra-red imaging hyphenated with gas-chromatography-mass spectrometry. The expected benefits are an enhanced research capability in solid-electrolyte-interphase and electrolyte decomposition on electrodes being used in alkaline-i ....Thermo-gravimetric infra-red imaging system for functional materials study. This proposal seeks to establish a multi-functional system for investigating surface, interface, and thermal properties of functional materials. The instrumentation features thermo-gravimetric, infra-red imaging hyphenated with gas-chromatography-mass spectrometry. The expected benefits are an enhanced research capability in solid-electrolyte-interphase and electrolyte decomposition on electrodes being used in alkaline-ion batteries, which could potentially pose risks during manufacturing and application. The system will not only facilitate high-quality research and impact the training of young researchers, but also provide a platform from which to enhance Australian materials research capabilities.Read moreRead less
New generation high efficiency thermoelectric materials and modules for waste heat recovery in steelworks. The development of thermoelectric materials and devices, and their subsequent uptake by the steel industry, will bring tremendous socio-economic benefits in terms of decreased operational costs, a significantly reduced carbon footprint and will set an excellent example for other industries on how to comply with strict environmental regulations.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100188
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
Epitaxial growth facility for advanced materials. An advanced materials fabrication facility accessible to all Australian researchers will be established. This will allow crystal growth at the atomic level for novel materials with applications including fundamental physics, nanocomposites, energy storage and conversion systems, and solar cells.