Combining the soft with the hard: The assembly of artificial cell membranes on porous semiconductors. The platform technologies developed in this project will have a wide range of applications. They will reveal new insights into drug-membrane and drug-protein interactions underpinning development of a new generation of drugs acting on transmembrane proteins that are linked to a wide range of diseases. The development of membrane-based biosensing devices targeting ion channels, membrane active pe ....Combining the soft with the hard: The assembly of artificial cell membranes on porous semiconductors. The platform technologies developed in this project will have a wide range of applications. They will reveal new insights into drug-membrane and drug-protein interactions underpinning development of a new generation of drugs acting on transmembrane proteins that are linked to a wide range of diseases. The development of membrane-based biosensing devices targeting ion channels, membrane active peptides or toxins which can be applied to biomedical diagnostics, biotoxin detection, environmental and food control will be readily achievable. This international interdisciplinary nanobiotechnology programme and its outcomes will enhance Australia's abilities in frontier technologies and build research strength in nanobiotechnology.Read moreRead less
New directions to miniaturized power sources: Integrated all-solid-state rechargeable batteries. This project will lead to the development of safe integrated all-solid-state miniaturized lithium ion batteries for small autonomous devices, such as implantable medical devices, hearing aids, small autonomous devices with sensing and actuation, and for communications and rapid chemical/biological analysis. This will make a significant contribution to the nation in the areas of science, technology, h ....New directions to miniaturized power sources: Integrated all-solid-state rechargeable batteries. This project will lead to the development of safe integrated all-solid-state miniaturized lithium ion batteries for small autonomous devices, such as implantable medical devices, hearing aids, small autonomous devices with sensing and actuation, and for communications and rapid chemical/biological analysis. This will make a significant contribution to the nation in the areas of science, technology, health, and the economy. The development of new scientific knowledge related to this project will place Australia at the forefront of an emerging domain of research. The project will also provide excellent training for postgraduate students and young researchers to develop their skills in chemistry, materials science, and battery technology.Read moreRead less
Harnessing properties of liquid metals for future devices. This project aims to hybridise low toxicity liquid metal alloys of gallium with surface confined functional micro/nano materials and explore fundamental new fluidic and physical-chemistry phenomena. Liquid metals are an under-used group of materials, but their combination of flexibility, bestowed by their room temperature fluidity, and metallic properties means they demonstrate startling behaviour. The expected outcomes are new devices a ....Harnessing properties of liquid metals for future devices. This project aims to hybridise low toxicity liquid metal alloys of gallium with surface confined functional micro/nano materials and explore fundamental new fluidic and physical-chemistry phenomena. Liquid metals are an under-used group of materials, but their combination of flexibility, bestowed by their room temperature fluidity, and metallic properties means they demonstrate startling behaviour. The expected outcomes are new devices and systems such as reconfigurable and highly efficient actuators/generators, catalysts, sensors, and electronic and optical components.Read moreRead less
A Mechanistic Approach to the Compression Properties of Z-Pinned Composites. The proposed research is a fundamental investigation of the compressive mechanical properties and failure mechanisms of fibre reinforced polymer (FRP) composites reinforced with z-pins. These composites are a new material with strong potential applications in aerospace structures subject to high compressive loads, however their compressive properties are poorly understood. Using theoretical modelling, finite element an ....A Mechanistic Approach to the Compression Properties of Z-Pinned Composites. The proposed research is a fundamental investigation of the compressive mechanical properties and failure mechanisms of fibre reinforced polymer (FRP) composites reinforced with z-pins. These composites are a new material with strong potential applications in aerospace structures subject to high compressive loads, however their compressive properties are poorly understood. Using theoretical modelling, finite element analysis and experimentation, the research program will greatly enhance the fundamental understanding of the strengthening and failure mechanisms of z-pinned composites. A key outcome of the research will be design guidelines for optimising the pinning of composites for maximum structural performance in aerospace applications.Read moreRead less
Condition monitoring and process control of injection molding. Injection molding has been widely used in automotive industry and improvement of the productivity and quality of the products is very important for the injection molding production to be internationally competitive. The aim of this project is to develop a condition monitoring and process control system to monitor the key parameters of the injection molding processes, to optimise the design and process conditions, and consequently, to ....Condition monitoring and process control of injection molding. Injection molding has been widely used in automotive industry and improvement of the productivity and quality of the products is very important for the injection molding production to be internationally competitive. The aim of this project is to develop a condition monitoring and process control system to monitor the key parameters of the injection molding processes, to optimise the design and process conditions, and consequently, to more actively control the processes. This will lead to an more reliable process, improved productivity and production of higher quality of moldings.Read moreRead less
DEVELOPMENT OF SCIENTIFIC AND EXPERIMENTAL BASIS FOR MANUFACTURE OF BUILDING MATERIALS WITH SPECIAL PROPERTIES BASED ON GEOPOLYMERS. This project seeks to develop a new class of building materials based on geopolymers. These materials will have superior corrosion resistance, fire resistance, heat and noise insulating properties. The project will study in detail the effect of processing parameters on microstructure of these materials, and effect of structure and composition on properties. A good ....DEVELOPMENT OF SCIENTIFIC AND EXPERIMENTAL BASIS FOR MANUFACTURE OF BUILDING MATERIALS WITH SPECIAL PROPERTIES BASED ON GEOPOLYMERS. This project seeks to develop a new class of building materials based on geopolymers. These materials will have superior corrosion resistance, fire resistance, heat and noise insulating properties. The project will study in detail the effect of processing parameters on microstructure of these materials, and effect of structure and composition on properties. A good understanding of this would result in environmentally friendly inexpensive inorganic materials with superior durability, chemical and fire resistance, heat and noise insulation properties that can substitute organic polymers and ordinary Portland cement concrete in special applications.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL190100139
Funder
Australian Research Council
Funding Amount
$3,185,850.00
Summary
New Artificial Leaf for Efficient Solar Fuel Production . The Fellowship aims to develop next-generation materials that harness solar energy to produce valuable fuels and chemicals from water and carbon dioxide, replacing fossil fuels. The program will design new semiconductor materials to revolutionise solar-to-fuel technologies that currently have very low efficiency. The expected outcomes include innovative systems such as wireless artificial leaves that mimic natural photosynthesis for effic ....New Artificial Leaf for Efficient Solar Fuel Production . The Fellowship aims to develop next-generation materials that harness solar energy to produce valuable fuels and chemicals from water and carbon dioxide, replacing fossil fuels. The program will design new semiconductor materials to revolutionise solar-to-fuel technologies that currently have very low efficiency. The expected outcomes include innovative systems such as wireless artificial leaves that mimic natural photosynthesis for efficient hydrocarbon production, carbon dioxide reduction, and water purification. The expected benefits include next-generation solar fuel and chemical generation technologies, and research capabilities to position Australia as a global leader in the transition to a decarbonised economy.Read moreRead less
Prediction of Time-dependent Deformations in Post-tensioned Concrete Suspended Slabs in Tall Buildings. The proposed project aims to develop an analytical model that can predict the time-dependent deformations in post-tensioned concrete slabs considering concrete shrinkage and creep, cracking, and bond-slip behaviour. Over the past several years, numerous cases have been reported in Australia and elsewhere, of flexural elements for which the calculated deflection is far less than the actual defl ....Prediction of Time-dependent Deformations in Post-tensioned Concrete Suspended Slabs in Tall Buildings. The proposed project aims to develop an analytical model that can predict the time-dependent deformations in post-tensioned concrete slabs considering concrete shrinkage and creep, cracking, and bond-slip behaviour. Over the past several years, numerous cases have been reported in Australia and elsewhere, of flexural elements for which the calculated deflection is far less than the actual deflection leading to serviceability problems. The significance of this investigation hence lies in its potential to provide a solution to more accurately predict service-life deflections in post-tensioned concrete suspended slabs and validate the model with real-life deflections monitored over time on a current building project.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560683
Funder
Australian Research Council
Funding Amount
$321,953.00
Summary
A furnace stack for advanced photovoltaic, photonic and microfabrication applications. Advanced silicon photovoltaic, photonic, optoelectronic and micro-electromechanical devices require state of the art processing equipment for the deposition of thin dielectric films and for controlled doping of the devices. Key techniques include the deposition of stoichiometric and silicon rich silicon nitride and silicon dioxide films, and the controlled wafer doping with boron and phosphorus. A state of the ....A furnace stack for advanced photovoltaic, photonic and microfabrication applications. Advanced silicon photovoltaic, photonic, optoelectronic and micro-electromechanical devices require state of the art processing equipment for the deposition of thin dielectric films and for controlled doping of the devices. Key techniques include the deposition of stoichiometric and silicon rich silicon nitride and silicon dioxide films, and the controlled wafer doping with boron and phosphorus. A state of the art furnace stack is to be procured which will satisfy these requirements on industrially relevant wafer sizes up to 150mm. The equipment will support a broad range of research projects in the above fields, ranging from fundamental investigations to applied research carried out in collaboration with industry partners.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL180100053
Funder
Australian Research Council
Funding Amount
$3,162,000.00
Summary
Re-discovering liquid metals from core to surface. This project aims to investigate and make new discoveries on the unique properties of liquid metals. Liquid metals have traditionally been used in mining, for switches, barometers, heat transfer units, and coolers and heaters. However, recent discoveries have indicated that liquid metals have untapped potential in applications for creating systems with extraordinary physical and chemical properties. This project will expand our knowledge of liqu ....Re-discovering liquid metals from core to surface. This project aims to investigate and make new discoveries on the unique properties of liquid metals. Liquid metals have traditionally been used in mining, for switches, barometers, heat transfer units, and coolers and heaters. However, recent discoveries have indicated that liquid metals have untapped potential in applications for creating systems with extraordinary physical and chemical properties. This project will expand our knowledge of liquid metals by exploring liquid metals as electron rich solvents and investigating new properties to develop future applications in electronics, optics, catalysts, thermal devices and bio systems.Read moreRead less