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Mathematical modelling unravels the impact of social dynamics on evolution. This project aims to mathematically model human evolution as a dynamical process. The anticipated goal is to quantitatively analyse theories of human origins. The project expects to develop innovative mathematical models, improve our understanding of the evolutionary process, and advance a unique area of interdisciplinary collaboration: applied mathematics and anthropology. Expected outcomes include refined methods fo ....Mathematical modelling unravels the impact of social dynamics on evolution. This project aims to mathematically model human evolution as a dynamical process. The anticipated goal is to quantitatively analyse theories of human origins. The project expects to develop innovative mathematical models, improve our understanding of the evolutionary process, and advance a unique area of interdisciplinary collaboration: applied mathematics and anthropology. Expected outcomes include refined methods for mathematical modelling of human evolution and improved techniques for analysing such models. It should provide benefits, such as increasing research in mathematical biology, an important growth area of science in Australia, and advancing mathematical approaches to engaging questions arising from anthropology.Read moreRead less
Conducting polymer materials. This project aims to understand the optical, electrical and optoelectronic properties of conductive polymers by studying how ions influence the charge transport through the polymeric structure. The discovery of conductive polymers in the 1970s led to smartphone and laptop touch displays and solar cells. These materials promise even more still – but how they operate at the atomic level is not understood. This project could lead to an ability to harness and control th ....Conducting polymer materials. This project aims to understand the optical, electrical and optoelectronic properties of conductive polymers by studying how ions influence the charge transport through the polymeric structure. The discovery of conductive polymers in the 1970s led to smartphone and laptop touch displays and solar cells. These materials promise even more still – but how they operate at the atomic level is not understood. This project could lead to an ability to harness and control these properties for energy storage and wearable displays. These materials’ biological neutrality could lead to drug delivery and sensing applications in the agriculture and healthcare spaces.Read moreRead less
The stability and predictability of the Southern Hemisphere coupled ocean-atmosphere climate system. Our ability to adapt to and manage the effects of a changing climate is limited by our understanding of the ocean's response to changes in the atmospheric circulation. This project will establish the basis for the predictability of the climate system and provide state-of-the-art forecasts for climate adaptation.
Organic Bionics: Soft Materials to Solve Hard Problems in Neuroengineering. This project aims to combine innovations in organic conductors, nanotechnology, 3D biofabrication and neuroengineering to develop a bioelectronic system capable of wireless neuromodulation with unprecedented stability and precision. This project expects to generate new knowledge regarding the properties of materials that promote optical neuromodulation and new strategies to obtain long-term material stability in biologic ....Organic Bionics: Soft Materials to Solve Hard Problems in Neuroengineering. This project aims to combine innovations in organic conductors, nanotechnology, 3D biofabrication and neuroengineering to develop a bioelectronic system capable of wireless neuromodulation with unprecedented stability and precision. This project expects to generate new knowledge regarding the properties of materials that promote optical neuromodulation and new strategies to obtain long-term material stability in biological environments. The expected outcome is to generate new material design rules to facilitate wireless neuromodulation technologies in biomedical engineering. The project will position Australia as a leader in bionic devices by creating a new 3D bioprinting hub for low-cost fabrication of bioelectronic systems.Read moreRead less
Novel graphene-based soft materials for versatile applications. This research program will develop new techniques to convert natural graphite into new carbon nanomaterials for use in energy storage/conversion devices, water purification, sensors and biomedical devices. It will enable many technological innovations in related areas and enhance Australia's engineering and manufacturing innovations.
Image correlation spectroscopy on gold nanorod based plasmonic random media for nanophotonic applications. The push for high capacity storage and high speed plasmonic switching beyond terahertz (THz) is continuing, but the question remains whether this limit can be overcome. This project tackles these issues using plasmonic random media, which will help realise the elusive terabyte storage capacity and THz switching speed.
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
Engineering nanoscale tools for cellular interrogation. The aim is to address fundamental hurdles to engineering seamless nanobiointerfaces between electroactive nanoscale tools and living cells. This is expected to allow efficient delivery of many bioactive cargo types into cells, intracellular sampling of cytosol contents, and probing of action potential, all at the cell—material interface. New, powerful, electroactive nanoscale tools that deliver precise spatio-temporal resolution and minimal ....Engineering nanoscale tools for cellular interrogation. The aim is to address fundamental hurdles to engineering seamless nanobiointerfaces between electroactive nanoscale tools and living cells. This is expected to allow efficient delivery of many bioactive cargo types into cells, intracellular sampling of cytosol contents, and probing of action potential, all at the cell—material interface. New, powerful, electroactive nanoscale tools that deliver precise spatio-temporal resolution and minimal invasiveness and perturbation are likely to transform ex-vivo cellular processes. The intended outcomes are crucial for maximising precision in engineering and implementing of ex-vivo cellular processes. Fundamental advances in knowledge may eventually be a platform for developing cell-based therapies.
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Dealing with distraction: understanding recovery after interruption. Interruptions impair cognitive performance but modern environments have normalised distractions in our workplaces, homes, schools and cars. Daily tragedies occur because people are unaware of their attentional capacity limits. This Fellowship explores the consequences of interruption in moving displays using cutting-edge methods to determine how the brain holds information over an interruption and the process of attentional rec ....Dealing with distraction: understanding recovery after interruption. Interruptions impair cognitive performance but modern environments have normalised distractions in our workplaces, homes, schools and cars. Daily tragedies occur because people are unaware of their attentional capacity limits. This Fellowship explores the consequences of interruption in moving displays using cutting-edge methods to determine how the brain holds information over an interruption and the process of attentional recovery. It includes translational work determining effective ways to raise awareness of attention limits and guide policy. The outcomes will advance knowledge of the mechanisms of recovery from interruption, raise awareness of capacity limits beyond academia, and guide policy to improve safety.Read moreRead less
High performance compound semiconductor nanowire optoelectronic devices. Semiconductor nanowires are emerging nano-materials with substantial opportunities for novel photonic and electronic device applications. This project aims at developing a new generation of high performance nanowire-based light-emitting diodes (LEDs), lasers and photodetectors, which will make great contribution to the nation in the areas of science, technology and industry.