Platform technologies for multifunctional nanocarrier systems. Smart targeted nanocarriers offer new opportunities for drug delivery. This project aims to develop new platforms for reproducibly producing and screening targeted nanocarriers. The platform technologies developed in this project aim to revolutionise current strategies for designing and evaluating drug delivery systems, and will accelerate the clinical translation of targeted drug delivery. This will include a novel one-step microflu ....Platform technologies for multifunctional nanocarrier systems. Smart targeted nanocarriers offer new opportunities for drug delivery. This project aims to develop new platforms for reproducibly producing and screening targeted nanocarriers. The platform technologies developed in this project aim to revolutionise current strategies for designing and evaluating drug delivery systems, and will accelerate the clinical translation of targeted drug delivery. This will include a novel one-step microfluidic platform technology for reproducibly producing targeted polymer nanocarriers having systematically varied properties, a dual-templating method for making targeted silica nanocapsules and new design of in vivo-mimicking 'Tissue Chips' for screening and evaluating the nanocarriers.Read moreRead less
Electronic coupling and nanoscale engineering of two-dimensional nanojunctions. This project aims to improve the design of photovoltaic, energy storage, and nanocatalytic devices by using quantum-size tuning, orientation control, strain engineering, and surface modification to manipulate the electronic coupling and charge transfer of two-dimensional nanojunctions. The limitations of and potential environmental damage from fossil-fuel-based energy resources have increased interest in renewable en ....Electronic coupling and nanoscale engineering of two-dimensional nanojunctions. This project aims to improve the design of photovoltaic, energy storage, and nanocatalytic devices by using quantum-size tuning, orientation control, strain engineering, and surface modification to manipulate the electronic coupling and charge transfer of two-dimensional nanojunctions. The limitations of and potential environmental damage from fossil-fuel-based energy resources have increased interest in renewable energy research. The expected outcomes are electron-scale understanding of the tuneable functionalisation of two-dimensional nanojunctions and the design of low-cost and high-efficiency renewable energy devices.Read moreRead less
Solar-driven thermochemical dissociation of carbon dioxide and water to produce carbon-neutral fuels. The biggest challenge to humanity of the century is to develop enabling clean energy resources to encounter rapidly diminished fossil fuel and accelerated global warming conditions. This project will offer a solution by developing a unique solar-driven thermochemical system capable of cleaving carbon dioxide and water to produce artificial syngas.
Addressing Challenges for the Future Grids – Harmonics Standardization. The main aim of this project is to deliver appropriate frequency standardisation to protect electricity grids and support the use of renewable energy sources. Globally, there is no harmonic standardisation within the frequency range of 2–150 kHz, which can significantly affect the reliability of electricity networks and smart grids. Electricity networks are increasingly using renewable energy sources and an efficient loads a ....Addressing Challenges for the Future Grids – Harmonics Standardization. The main aim of this project is to deliver appropriate frequency standardisation to protect electricity grids and support the use of renewable energy sources. Globally, there is no harmonic standardisation within the frequency range of 2–150 kHz, which can significantly affect the reliability of electricity networks and smart grids. Electricity networks are increasingly using renewable energy sources and an efficient loads approach based on power electronics technology. However, this can affect grid reliability and robustness. The project aims to develop advanced tools to better understand the power quality issues of Australian residential, commercial and industrial distribution networks. It also aims to develop novel techniques to improve power quality and reliability of the grids, and to develop harmonics emission and immunity levels to modify the Australian standards accordingly.Read moreRead less
All-Metal Nanoporous Materials as Highly Active Electrocatalysts. This project aims to create new avenues for well-controlled large-scale synthesis of hierarchical nanoporous platinum-based architectures, and develop applications for the resultant new electrocatalysts. Developing novel high-performance, low-cost, and long-life electrode catalysts can improve the efficiency, cost, and durability of energy conversion technology. The project plans to use the unique properties of well-defined nanoar ....All-Metal Nanoporous Materials as Highly Active Electrocatalysts. This project aims to create new avenues for well-controlled large-scale synthesis of hierarchical nanoporous platinum-based architectures, and develop applications for the resultant new electrocatalysts. Developing novel high-performance, low-cost, and long-life electrode catalysts can improve the efficiency, cost, and durability of energy conversion technology. The project plans to use the unique properties of well-defined nanoarchitectures to reduce platinum content and to improve electrocatalytic performance. Nanoporous systems in electrocatalysts can provide more active sites and effective surface permeability, which should enhance catalytic activity. Project outcomes may also contribute to our understanding of the relationships among morphologies, pore structures, surface atomic structures and catalytic activities to guide the development of other kinds of high performance nanoporous catalysts.Read moreRead less
Hetero-epitaxial silicon carbide: enabling wide-band-gap semiconductors on silicon for greener technologies. In the next decade wide band gap materials will unlock vast potential for a capillary outreach of smart heterogeneous devices, improving energy efficiency and lessening our carbon footprint. This project will aim at major breakthroughs, enabling this pressing technological demand, and putting Australia at the leading edge of this revolution.
A New Paradigm for Understanding and Improving the Effective Use of Information Systems in Organisations. In an information-based economy, the critical issue for many organisations is how to leverage their information systems effectively. Remarkably, there is almost no detailed research on this topic. This project will address this problem by building a new paradigm for research on the effective use of information systems in organisations. It will involve developing and testing two complementa ....A New Paradigm for Understanding and Improving the Effective Use of Information Systems in Organisations. In an information-based economy, the critical issue for many organisations is how to leverage their information systems effectively. Remarkably, there is almost no detailed research on this topic. This project will address this problem by building a new paradigm for research on the effective use of information systems in organisations. It will involve developing and testing two complementary theories of effective use and designing and testing a novel intervention to facilitate more effective use in an organisation. To maximise academic and practical value, it involves a rigorous program of empirical work in the information-intensive industries of Healthcare and Information Systems Auditing in Australia and Canada. Read moreRead less
Erosion processes in soils across scales. This project aims to develop a monitoring tool for predicting the evolution of internal erosion in dams based on innovative electromagnetic observation methods. Internal erosion is an insidious process occurring in the obscurity of the soil’s pore system until its consequences become visible and threaten the stability of the dams. These water retaining structures are vital for the future water and energy supply for our society and their failure can be ca ....Erosion processes in soils across scales. This project aims to develop a monitoring tool for predicting the evolution of internal erosion in dams based on innovative electromagnetic observation methods. Internal erosion is an insidious process occurring in the obscurity of the soil’s pore system until its consequences become visible and threaten the stability of the dams. These water retaining structures are vital for the future water and energy supply for our society and their failure can be catastrophic. By establishing an improved understanding of internal erosion as a sequence of processes on various scales, from the onset of erosion until the failure of the structure, this project will place Australia at the forefront of dam safety assessment.Read moreRead less
Theoretical modelling and design of safe covalent anti-cancer drugs. Covalent drugs are a new class of drugs with outstanding potential in cancer therapy. Detailed computer modelling studies will be performed to determine how these drugs interact with an important target in cancer therapy, the epithelial growth factor receptor, and thereby aid the development of new cancer treatments.
Bioactive Peptides as Pharmacological Tools and Novel Drug Leads. Bioactive peptides are produced by all organisms and play numerous critical physiological roles, including in cellular communication, host defence and capture of prey. Peptides have huge potential as tools for studying roles of signalling pathways and as novel drugs due to their high affinity and selectivity for various therapeutically relevant targets. However their use has been limited by poor in vivo stability. This project is ....Bioactive Peptides as Pharmacological Tools and Novel Drug Leads. Bioactive peptides are produced by all organisms and play numerous critical physiological roles, including in cellular communication, host defence and capture of prey. Peptides have huge potential as tools for studying roles of signalling pathways and as novel drugs due to their high affinity and selectivity for various therapeutically relevant targets. However their use has been limited by poor in vivo stability. This project is focused on studying structural features of a range of peptides and their contributions to both activity and to resistance against degradation, with the aim to develop stabilised bioactive peptide sequences for in vivo applications, allowing the full potential of peptides as drugs to be realised.Read moreRead less