CO2 Utilisation for Energy Storage. This project aims to develop a novel technology that can convert carbon dioxide into useful products while storing intermittent renewable energy as green stable chemical energy. The project plans to focus on the development of a robust cathode for the conversion of carbon dioxide with optimum physical and chemical structure to achieve long-term stable performance. This technology would make a significant contribution to increasing the proportion of renewable e ....CO2 Utilisation for Energy Storage. This project aims to develop a novel technology that can convert carbon dioxide into useful products while storing intermittent renewable energy as green stable chemical energy. The project plans to focus on the development of a robust cathode for the conversion of carbon dioxide with optimum physical and chemical structure to achieve long-term stable performance. This technology would make a significant contribution to increasing the proportion of renewable energy in our energy supply and reducing our carbon dioxide emissions.Read moreRead less
Development of nanoporous materials for capture and release of oxygen. This project aims to develop new materials to make lighter, more efficient oxygen concentrators. The project will combine materials that can capture oxygen with particles that can be magnetically heated, making it possible to release the oxygen rapidly and efficiently when needed. Expected outcomes from this project include new composite materials and better understanding of how gases are trapped and released within composite ....Development of nanoporous materials for capture and release of oxygen. This project aims to develop new materials to make lighter, more efficient oxygen concentrators. The project will combine materials that can capture oxygen with particles that can be magnetically heated, making it possible to release the oxygen rapidly and efficiently when needed. Expected outcomes from this project include new composite materials and better understanding of how gases are trapped and released within composite materials. Benefits from this project may include oxygen concentrators that are more portable and have longer battery life, both with industrial and medical applications.Read moreRead less
Inorganic/organic Hybrids for flexible thermoelectric generators. Flexible thermoelectric generators can directly harvest electricity from body heat, offering a new technology for wearable electronics, but their unsatisfied performance limits their applications. This project aims to design high-efficient and mechanically robust flexible thermoelectric devices based on novel hybrids with quantum dots and conducting polymers as key components. The key breakthrough is to establish unique devices wi ....Inorganic/organic Hybrids for flexible thermoelectric generators. Flexible thermoelectric generators can directly harvest electricity from body heat, offering a new technology for wearable electronics, but their unsatisfied performance limits their applications. This project aims to design high-efficient and mechanically robust flexible thermoelectric devices based on novel hybrids with quantum dots and conducting polymers as key components. The key breakthrough is to establish unique devices with record-high thermoelectric efficiency and to illustrate the underlying mechanisms for searching new-type flexible thermoelectrics. The expected outcomes will lead to innovative technology for energy conversion and advanced manufacturing and place Australia at the forefront of energy and manufacturing fields.Read moreRead less
Exploiting shear to form new structures of carbon. This project aims to create new, technologically-interesting, materials by combining shear (sliding forces) with high pressure. The work will use both modelling and experiments to understand the pathways to form new materials such as a different form of diamond that is predicted to be harder than regular diamond. Such a material could be used in coatings for cutting tools or ultra-low-scratch surfaces. Expected outcomes include both an understan ....Exploiting shear to form new structures of carbon. This project aims to create new, technologically-interesting, materials by combining shear (sliding forces) with high pressure. The work will use both modelling and experiments to understand the pathways to form new materials such as a different form of diamond that is predicted to be harder than regular diamond. Such a material could be used in coatings for cutting tools or ultra-low-scratch surfaces. Expected outcomes include both an understanding of the importance of shear in the study of high-pressure science, and as a tool to manufacture new functional materials.Read moreRead less
Edges of home ownership. This project aims to address substantial knowledge gaps about household behaviours, wealth management and wellbeing outcomes at the edges of home ownership. Housing pathways were traditionally viewed as linear progressions that began when leaving the parental home and ended in outright ownership. However, growing numbers of Australians now face an uncertain future at the edges of home ownership, where there is considerable movement both in and out of owning and renting o ....Edges of home ownership. This project aims to address substantial knowledge gaps about household behaviours, wealth management and wellbeing outcomes at the edges of home ownership. Housing pathways were traditionally viewed as linear progressions that began when leaving the parental home and ended in outright ownership. However, growing numbers of Australians now face an uncertain future at the edges of home ownership, where there is considerable movement both in and out of owning and renting over the life course. This project will deliver new evidence on households’ wealth strategies, wellbeing and risk burdens at the edges of home ownership. The project will promote policies that enhance financial wellbeing, housing stability and retirement income security amidst growing housing precariousness in Australia.Read moreRead less
From child learner to adult musician: Factors leading to success and ongoing participation in music. Building on recommendations from the Commonwealth Government's National Review of School Music Education (2005), this project seeks to clarify the factors that facilitate engagement in music. Building on data collected 10 years ago, the proposed follow up study will enable us to trace how Australian education in the form of school instrumental programs influence musical development, interest and ....From child learner to adult musician: Factors leading to success and ongoing participation in music. Building on recommendations from the Commonwealth Government's National Review of School Music Education (2005), this project seeks to clarify the factors that facilitate engagement in music. Building on data collected 10 years ago, the proposed follow up study will enable us to trace how Australian education in the form of school instrumental programs influence musical development, interest and attainment from childhood through to early adulthood. With this information, the study will enable us to identify how Australian education can be developed to facilitate the life-long enjoyment that artistic appreciation and participation can offer as a result of school music. Read moreRead less
Interface/Boundary Engineering Towards Better Solid-State Lithium Batteries. This project aims to develop high-performance solid-state lithium batteries by engineering the design of grain boundaries within the oxide electrolyte and interfaces between the electrolyte and both anode and cathode. This project expects to propose a novel cation exsolution strategy for comprehensively engineering the interfaces and boundaries. This project should provide significant benefits on energy safety and susta ....Interface/Boundary Engineering Towards Better Solid-State Lithium Batteries. This project aims to develop high-performance solid-state lithium batteries by engineering the design of grain boundaries within the oxide electrolyte and interfaces between the electrolyte and both anode and cathode. This project expects to propose a novel cation exsolution strategy for comprehensively engineering the interfaces and boundaries. This project should provide significant benefits on energy safety and sustainable development of Australia. The successful completion of this project can lead to the development of battery technologies that may lift Australia to a better position in the international market and may also help boost the prosperity of Australia’s world-leading lithium mining industry.Read moreRead less
Development of a hydroxyapatite-containing ceramic composite core dental implant system with effective variable elastic properties. The proposed dental implant system with a bio-active 'effective ligament' and thus variable elastic properties is closer to the natural tooth structure than the current high modulus metal and ceramic implants. The new implant system provides clinical longevity by promoting hard tissue growth and by reducing the stress concentration.
Selective laser melting of bulk metallic glasses. The application of metallic glasses is limited due to their difficulty in producing normal sized, complex components. This project will use the unique benefits of an advance manufacturing technology called Selective Laser Melting and the theories of polymer processing, to overcome the inherent difficulties in manufacturing these materials.
Developing a disability policy model to target the prevention or reduction of limitations on functioning and wellbeing. With the ageing of Australian society the challenge for public health is shifting from preventing death and disease onset to supporting healthy and productive ageing. The disability policy model will allow cost-effective targeting of interventions to reduce or prevent onset of disability or reduce its severity particularly among older Australians.