Lead-free oxide perovskites for highly efficient solar cells. This project aims to develop nanostructured lead-free oxide perovskites for solar energy applications. These materials will strengthen the future of photovoltaic technology by overcoming bandgap voltage limitations and toxicity/stability issues that plague conventional silicon-based and emerging halide perovskite-based solar cells. This project is expected to advance the rational design of solar cells based on oxide perovskites, which ....Lead-free oxide perovskites for highly efficient solar cells. This project aims to develop nanostructured lead-free oxide perovskites for solar energy applications. These materials will strengthen the future of photovoltaic technology by overcoming bandgap voltage limitations and toxicity/stability issues that plague conventional silicon-based and emerging halide perovskite-based solar cells. This project is expected to advance the rational design of solar cells based on oxide perovskites, which are efficient, high output voltage, environmentally friendly photovoltaic technology Success of the proposed programme paves the way to promote photovoltaic technology as a mainstream power generation source and a significant contributor to achieving energy, environmental and economic goals.Read moreRead less
Development of high-performance lead-free piezoelectric superlattices for environmentally-friendly and biocompatible piezoelectric micromachined ultrasonic transducers (pMUTs) applications. This program is aimed at development of environmentally friendly and biocompatible lead-free piezoelectric thin films and superlattices for the potential applications in pMUTs. The expected outcome includes deposition of BNT and BZT-based thin films and superlattices, and enhancement of their physical propert ....Development of high-performance lead-free piezoelectric superlattices for environmentally-friendly and biocompatible piezoelectric micromachined ultrasonic transducers (pMUTs) applications. This program is aimed at development of environmentally friendly and biocompatible lead-free piezoelectric thin films and superlattices for the potential applications in pMUTs. The expected outcome includes deposition of BNT and BZT-based thin films and superlattices, and enhancement of their physical properties by strain and interface engineering.Read moreRead less
Constituencies for welfare: Public responses to Australia's 'new welfare state'. The main national and community benefits fall within Research Priority 2: Promoting and Maintaining Good Health, and particularly 'Strengthening Australia's social and economic fabric'. Australia's welfare state helps maintain the social fabric, but its performance depends on citizens' confidence in the purposes and outcomes of welfare. This project investigates how well Australians understand recent welfare changes ....Constituencies for welfare: Public responses to Australia's 'new welfare state'. The main national and community benefits fall within Research Priority 2: Promoting and Maintaining Good Health, and particularly 'Strengthening Australia's social and economic fabric'. Australia's welfare state helps maintain the social fabric, but its performance depends on citizens' confidence in the purposes and outcomes of welfare. This project investigates how well Australians understand recent welfare changes, and measures their confidence in policy directions. The project will produce fresh research into the public's response to the Australian government's largest area of fiscal responsibility, provide new analytical and data tools for policymakers, and strengthen Australia's international profile in research into welfare reform.Read moreRead less
A model of sex offender registration, monitoring, and risk management. This research will investigate the ways in which sexual offenders are managed in the community and identify the most effective means of preventing further offending, thereby promoting community safety.
Development of Metal-Titania Core-Shell Nanostructures for Photocatalysis. The aim of this project is to develop innovative techniques for the synthesis of advanced nanomaterials for pollutant removal and antibacterial applications. Improving the photocatalysis efficiency of titanium oxide (TiO2) is critical in energy and environmental applications. This project aims to develop innovative strategies to prepare metal–TiO2 core-shell nanostructures, in which metals (eg gold, silver) can be used as ....Development of Metal-Titania Core-Shell Nanostructures for Photocatalysis. The aim of this project is to develop innovative techniques for the synthesis of advanced nanomaterials for pollutant removal and antibacterial applications. Improving the photocatalysis efficiency of titanium oxide (TiO2) is critical in energy and environmental applications. This project aims to develop innovative strategies to prepare metal–TiO2 core-shell nanostructures, in which metals (eg gold, silver) can be used as light absorbers for visible incident light and generate intense electromagnetic fields, thus improving efficiency.Read moreRead less
Perovskite Quantum Dots for Solar Hydrogen Generation. Sustainable hydrogen production is highly significant towards decarbonised economy. This project aims to develop new classes of organometal halide perovskite quantum dots (OHPQDs) for efficient photoelecrochemical hydrogen production. The key concept is to design toxic Lead free/less OHPQDs for use as stable photoelectrode materials in self-powered sunlight driven water splitting devices. Expected outcomes include new generation advanced mat ....Perovskite Quantum Dots for Solar Hydrogen Generation. Sustainable hydrogen production is highly significant towards decarbonised economy. This project aims to develop new classes of organometal halide perovskite quantum dots (OHPQDs) for efficient photoelecrochemical hydrogen production. The key concept is to design toxic Lead free/less OHPQDs for use as stable photoelectrode materials in self-powered sunlight driven water splitting devices. Expected outcomes include new generation advanced materials and revolutionary technologies for efficient solar hydrogen generation. The successful completion of this project will significantly benefit Australia by positioning the nation at the frontier of renewable hydrogen supply technologies. Read moreRead less
Programming soft plasmene nanosheets with living RAFT functional polymers. This project aims to use recently discovered plasmene to demonstrate programmable materials properties using living RAFT polymeric ligands. Plasmene is free-standing, one-particle-thick, superlattice sheets of plasmonic nanoparticles. It represents a conceptually new class of two-dimensional metamaterials with broad applications in energy, environment, sensors and optoelectronic devices. This project expects to generate n ....Programming soft plasmene nanosheets with living RAFT functional polymers. This project aims to use recently discovered plasmene to demonstrate programmable materials properties using living RAFT polymeric ligands. Plasmene is free-standing, one-particle-thick, superlattice sheets of plasmonic nanoparticles. It represents a conceptually new class of two-dimensional metamaterials with broad applications in energy, environment, sensors and optoelectronic devices. This project expects to generate new knowledge and patentable technologies, and advance Australian worldwide standing in the field of nanotechnology and polymer science.Read moreRead less
Hot carrier cooling mechanisms in nano structures. This project aims to systematically investigate possible mechanisms of hot carrier cooling in nano structures and to identify the most dominant mechanisms. These are important for efficient hot carrier solar cells and thermoelectrics. This project will develop new physics to understand hot carrier dynamics in nano structures. This project is expected to result in photovoltaic systems with a lower balance of system and levelised cost of electrici ....Hot carrier cooling mechanisms in nano structures. This project aims to systematically investigate possible mechanisms of hot carrier cooling in nano structures and to identify the most dominant mechanisms. These are important for efficient hot carrier solar cells and thermoelectrics. This project will develop new physics to understand hot carrier dynamics in nano structures. This project is expected to result in photovoltaic systems with a lower balance of system and levelised cost of electricity compared to conventional technologies. This should boost solar industry, create green jobs and reduce greenhouse gas emissions.Read moreRead less
Development and evaluation of a web-based decision and safety planning aid for women experiencing domestic violence (I-DECIDE). This project will develop and evaluate a web-based intervention process which enables women experiencing domestic violence to consider their safety planning and support options, reach a carefully thought through decision (reflecting their personal priorities) and then make appropriate plans safely for themselves and their children.
Organically-Capped Copper Nanowires for Soft Electronic Skin Sensors. Soft skin-like electronics can enable applications that are impossible to achieve with today's rigid circuit board technologies. However, it is difficult to realise such future soft electronics with traditional materials and conventional manufacturing methodologies. This project aims to synthesise novel organically-capped copper nanowires as electronic inks (e-inks) for developing cost-effective, soft, stretchable conductor (e ....Organically-Capped Copper Nanowires for Soft Electronic Skin Sensors. Soft skin-like electronics can enable applications that are impossible to achieve with today's rigid circuit board technologies. However, it is difficult to realise such future soft electronics with traditional materials and conventional manufacturing methodologies. This project aims to synthesise novel organically-capped copper nanowires as electronic inks (e-inks) for developing cost-effective, soft, stretchable conductor (e-skin) sensors, which are wearable for monitoring blood pulses, body motions and hand gestures in real-time and in situ. This is expected to advance our knowledge in nanotechnology and generate patentable technologies in soft e-skin sensors, and to bring significant scientific and economic gains to Australia.Read moreRead less