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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
A study of ultracold atom interferometry and interactions through high-performance computing. This project involves a design and study of hyper-sensitive machines to detect changes in motion based on using clouds of atoms near absolute zero temperature. Matter at these ultracold temperatures can be harnessed to detect variations of both space and time, enabling novel quantum measurement devices to be built.
Vision and lighting in the age of melanopsin. This project aims to develop innovative new technologies, which will advance understanding of the effects of light on human behavior mediated via the recently discovered melanopsin photopigment in the eye. The project expects to create a cutting-edge visual display technology, which will deliver the foundation knowledge of melanopsin shapes visual perception. The project will redefine current knowledge of human vision and provide a practical lighting ....Vision and lighting in the age of melanopsin. This project aims to develop innovative new technologies, which will advance understanding of the effects of light on human behavior mediated via the recently discovered melanopsin photopigment in the eye. The project expects to create a cutting-edge visual display technology, which will deliver the foundation knowledge of melanopsin shapes visual perception. The project will redefine current knowledge of human vision and provide a practical lighting solution to suit the biological needs of humans, especially in relation to the human body’s internal (circadian) clock. Read moreRead less
Soft materials containing hierarchy via 3D sacrificial micro-moulding. The project seeks to develop sophisticated new polymeric materials and devices not possible using current manufacturing techniques. Biomaterials based on hydrogels are ideal substrates for synthetic extra-cellular matrices due to their high water content. However, one of the challenges hindering the use of hydrogels is reproducing the transport properties found in natural tissue with hierarchical features such as vascularisat ....Soft materials containing hierarchy via 3D sacrificial micro-moulding. The project seeks to develop sophisticated new polymeric materials and devices not possible using current manufacturing techniques. Biomaterials based on hydrogels are ideal substrates for synthetic extra-cellular matrices due to their high water content. However, one of the challenges hindering the use of hydrogels is reproducing the transport properties found in natural tissue with hierarchical features such as vascularisation. To address this, the project plans to develop a 3D moulding process for generating soft materials containing precise channels decorated with defined molecules. Intended outcomes include a fundamental understanding of the 3D moulding process, and new polymers and advanced tools for bioengineers for future applications such as tissue transplants, cell guides for treating spinal cord injuries, soft robotics and microfluidic devices to study cancer metastasis. Read moreRead less
Perceptual suppression mechanisms in the Drosophila brain. This project will investigate common processes underlying three means to losing conscious perception: selective attention, sleep and general anaesthesia. By studying these suppression mechanisms in a genetic model, the fly Drosophila melanogaster, fundamental processes will be highlighted that are required in the brain for maintaining perception in general.
Molecular probe development for high specificity and spatiotemporal control. This project aims at developing next-generation molecular probes with enhanced specificity and spatiotemporal control for the study of proteins and neuropeptide signalling. It addresses recognised knowledge gaps and technical bottlenecks in neuropeptide and memory research. Expected outcomes include a deeper molecular understanding of long-term memory formation and the role of neuropeptides in this process, as well as i ....Molecular probe development for high specificity and spatiotemporal control. This project aims at developing next-generation molecular probes with enhanced specificity and spatiotemporal control for the study of proteins and neuropeptide signalling. It addresses recognised knowledge gaps and technical bottlenecks in neuropeptide and memory research. Expected outcomes include a deeper molecular understanding of long-term memory formation and the role of neuropeptides in this process, as well as innovative chemistry strategies and novel molecular probes to advance fundamental research across the chemical and biological sciences. Anticipated benefits include technological innovations of relevance to Australia’s biotechnology sector and enhanced capacity for cross-disciplinary collaboration.Read moreRead less
Solving the solvent problem in chemical modelling. This project aims to produce highly accurate, user-friendly chemical solvent models using interdisciplinary theoretical chemistry techniques. The benefits of these novel models are extremely broad since chemical modelling is more impactful than traditional laboratory based techniques in solving multi-faceted modern chemical problems. The proposed outcomes of the project are significant, as they will transform how applied research solves difficul ....Solving the solvent problem in chemical modelling. This project aims to produce highly accurate, user-friendly chemical solvent models using interdisciplinary theoretical chemistry techniques. The benefits of these novel models are extremely broad since chemical modelling is more impactful than traditional laboratory based techniques in solving multi-faceted modern chemical problems. The proposed outcomes of the project are significant, as they will transform how applied research solves difficult and expensive real world chemical problems by allowing researchers to reliably include solvents in their models. It will have economic benefits for the chemical, mining and materials sectors in Australia, which represent billion-dollar industries.Read moreRead less
New bioarchaeological perspectives on pre-contact lifeways in Sahul . This project aims to establish a new bioarchaeology research program to study socio-economic changes in the Australia-New Guinea continent Sahul and provide new insights into the complexity of societies from diverse environments. Bioarchaeology provides a unique lens for interpreting the past, however research of this nature has largely been inactive due to the sensitivity of studying ancestral remains of Indigenous people. H ....New bioarchaeological perspectives on pre-contact lifeways in Sahul . This project aims to establish a new bioarchaeology research program to study socio-economic changes in the Australia-New Guinea continent Sahul and provide new insights into the complexity of societies from diverse environments. Bioarchaeology provides a unique lens for interpreting the past, however research of this nature has largely been inactive due to the sensitivity of studying ancestral remains of Indigenous people. However, there is growing interest from Aboriginal groups in the narratives that can be reconstructed from their ancestors, and many Aboriginal communities now support research on skeletal remains. In collaboration with Aboriginal communities, the project will apply new developments in bioarchaeology to sensitively assess patterns of mobility and sedentism in three separate populations. This project is expected to initiate a new era of bioarchaeological research and redefine our understanding of the complexity of past Aboriginal and Papuan narratives.Read moreRead less
Drivers and constraints of romantic partner choice. This project aims to illuminate how genetic and environmental factors drive and constrain romantic partner choice. This choice can be the most significant in people’s lives, but how it works is not scientifically understood. This project will analyse the preferences and actual partners of thousands of twins using multivariable statistics and theoretic models of partner choice. The project aims to reveal why some people pair with incompatible pa ....Drivers and constraints of romantic partner choice. This project aims to illuminate how genetic and environmental factors drive and constrain romantic partner choice. This choice can be the most significant in people’s lives, but how it works is not scientifically understood. This project will analyse the preferences and actual partners of thousands of twins using multivariable statistics and theoretic models of partner choice. The project aims to reveal why some people pair with incompatible partners, and the consequences of partner mismatch for psychological wellbeing and for evolutionary processes driven by mate selection. This could lead to more effective relationship management.Read moreRead less
Illuminating behavioural and environmental influences on human development. This project aims to investigate prehistoric human population growth by documenting nursing behaviour, developmental stress, and fine-scaled climate variation directly from the teeth of ancient children. Knowledge of the nexus of early childhood growth and ecological variation will shed light on modern human health and fertility, which in turn impact planetary health. Outcomes will provide further insight into humanity’s ....Illuminating behavioural and environmental influences on human development. This project aims to investigate prehistoric human population growth by documenting nursing behaviour, developmental stress, and fine-scaled climate variation directly from the teeth of ancient children. Knowledge of the nexus of early childhood growth and ecological variation will shed light on modern human health and fertility, which in turn impact planetary health. Outcomes will provide further insight into humanity’s unprecedented evolutionary success while augmenting multidisciplinary collaborative networks. This will further strengthen Australia’s pioneering role in the development of innovative technologies, and build key workforce capabilities of benefit for diverse fields such as public health and environmental science.Read moreRead less