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Coordinating Innovation in Knowledge-Based Multinational Organisations. Integration into global supply chains is one of the fundamental challenges for manufacturing companies in Australia. This project seeks to identify the optimal design for coordinating innovation in globally-dispersed organisations. It will analyse three mechanisms for transferring knowledge within organisations: hierarchies, communities of practice, and social networks. Outcomes will include a new multilevel statistical netw ....Coordinating Innovation in Knowledge-Based Multinational Organisations. Integration into global supply chains is one of the fundamental challenges for manufacturing companies in Australia. This project seeks to identify the optimal design for coordinating innovation in globally-dispersed organisations. It will analyse three mechanisms for transferring knowledge within organisations: hierarchies, communities of practice, and social networks. Outcomes will include a new multilevel statistical network modelling framework and organisational designs to overcome barriers to knowledge-transfer, such as language, culture and distance. The project will collect and apply data from Boeing Global Technology, the international research arm of The Boeing Company, a world leading business with major subsidiaries in Australia.Read moreRead less
Understanding the fate and transport of selected biomarkers in sewers. This project aims to improve estimates of population drug use and chemical exposure by systematically studying the fate of drugs, organic pollutants (e.g. pesticides) and human biomarkers in sewers. The project aims to combine advanced experimental sewer research facilities with an analytical set-up and modelling expertise to address critical gaps in our knowledge of the fate of chemicals in sewers. The information could be u ....Understanding the fate and transport of selected biomarkers in sewers. This project aims to improve estimates of population drug use and chemical exposure by systematically studying the fate of drugs, organic pollutants (e.g. pesticides) and human biomarkers in sewers. The project aims to combine advanced experimental sewer research facilities with an analytical set-up and modelling expertise to address critical gaps in our knowledge of the fate of chemicals in sewers. The information could be used to provide accurate, cost-effective and near real-time estimates of chemicals entering the sewer system which could allow us to better estimate changes in population drug use, chemical exposure and health status.Read moreRead less
Nanosilver antimicrobial resistance in target pathogens. This project aims to elucidate the important phenomena of bacterial resistance to antimicrobial nanosilver, currently one of the most developed and commercialised products of nanotechnology. The integrated research approach comprises of concurrent identification of the origins and routes of nanosilver toxicity in bacteria and the arising emergence and mechanisms of bacterial defence to the toxicity. The generated knowledge is to form a bas ....Nanosilver antimicrobial resistance in target pathogens. This project aims to elucidate the important phenomena of bacterial resistance to antimicrobial nanosilver, currently one of the most developed and commercialised products of nanotechnology. The integrated research approach comprises of concurrent identification of the origins and routes of nanosilver toxicity in bacteria and the arising emergence and mechanisms of bacterial defence to the toxicity. The generated knowledge is to form a base template for novel nanosilver engineering with less tendency for resistance development and to facilitate tracking of resistance and its spread amongst microorganisms. The knowledge has far-reaching implications on the better governance of nanosilver use, including its disposal.Read moreRead less
The Molecular Basis of Nanoparticle Resistance in Mixed-Species Biofilm. The project aims to understand how the globally significant mixed-species growth of pathogens develop resistance to silver nanoparticle, currently one of the most important alternative antimicrobials to antibiotics. The integrated research is to elucidate, for the first time, the nanoparticle multi-targeting toxicity on mixed-species bacterial community and how, in turn, the bacteria activate their cell-to-cell signalling f ....The Molecular Basis of Nanoparticle Resistance in Mixed-Species Biofilm. The project aims to understand how the globally significant mixed-species growth of pathogens develop resistance to silver nanoparticle, currently one of the most important alternative antimicrobials to antibiotics. The integrated research is to elucidate, for the first time, the nanoparticle multi-targeting toxicity on mixed-species bacterial community and how, in turn, the bacteria activate their cell-to-cell signalling for a synergistic defence to adapt to the nanoparticle toxicity. The pioneering knowledge is the foundation for technologies targeting the interspecies metabolite cross-talking to overcome the resistance phenomena, ensuring a long-term efficacy of the alternative antimicrobial on the difficult-to-control pathogenic growth.Read moreRead less
Data-Driven Multistage Robust Optimization—the New Frontier in Optimization. Robust optimisation is a powerful technology for decision-making in uncertain environments. Yet, developing numerically certifiable optimisation principles and data-driven methods that can be readily implemented by common computer algorithms remains an elusive goal for multistage robust optimisation. But it is crucial for the practical use of multistage optimisation. This project aims to develop this novel mathematical ....Data-Driven Multistage Robust Optimization—the New Frontier in Optimization. Robust optimisation is a powerful technology for decision-making in uncertain environments. Yet, developing numerically certifiable optimisation principles and data-driven methods that can be readily implemented by common computer algorithms remains an elusive goal for multistage robust optimisation. But it is crucial for the practical use of multistage optimisation. This project aims to develop this novel mathematical theory and methods by extending the investigators' recent award winning advances, including the von Neumann-prizewinning Lasserre-hierarchy approach. Results will provide a foundation and technologies for making superior decisions in the pervasive presence of big data uncertainty, enhancing data-driven innovation in AustraliaRead moreRead less
Safe and efficient biomedical nanomaterials. This project aims to rationally engineer nanomaterials with controlled biological responses. Nanomaterials are becoming widespread in biomedicine and engineering, but are inefficient and unsafe. This project will develop atomic scale models to understand interactions between engineered nanoparticles and the crowded cellular environment. It will design extremely sensitive biosensors and theranostic nanodevices combining medical imaging capacity with pr ....Safe and efficient biomedical nanomaterials. This project aims to rationally engineer nanomaterials with controlled biological responses. Nanomaterials are becoming widespread in biomedicine and engineering, but are inefficient and unsafe. This project will develop atomic scale models to understand interactions between engineered nanoparticles and the crowded cellular environment. It will design extremely sensitive biosensors and theranostic nanodevices combining medical imaging capacity with precision targeted drug delivery to improve efficiency and safety of nanomaterials for biomedical applications in both vitro and in vivo enabling cost effective early diagnostics and more efficient treatments.Read moreRead less
Understanding biomolecular interactions of nanoparticles for engineering efficient biomedical materials and devices. Recent studies suggest that proteins bind differently to nano-patterned materials. This phenomenon holds a great potential for engineering of novel materials and devices for biomedical applications. At the same time, there are increasing concerns due to formation of biomolecular "coronas" of nanoparticles which can change their biological identity. This project will develop knowle ....Understanding biomolecular interactions of nanoparticles for engineering efficient biomedical materials and devices. Recent studies suggest that proteins bind differently to nano-patterned materials. This phenomenon holds a great potential for engineering of novel materials and devices for biomedical applications. At the same time, there are increasing concerns due to formation of biomolecular "coronas" of nanoparticles which can change their biological identity. This project will develop knowledge of the molecular mechanisms of nanomaterials interactions with molecular components of biological environment which will be exploited to improve molecular recognition needed in biosensors and drug delivery applications. The project outcomes will help formulate rational design principles for efficient biomedical materials and nanodevices.Read moreRead less
Advanced adsorbents for gas separations. Efficient purification of natural gas and separation of similarly-sized molecules in gas mixtures is increasingly important in our drive to develop a more sustainable way of living in an energy-constrained world. This project will develop a new class of adsorbents to deliver a level of separation efficiency much higher than that currently in use.
Development of a solid nitrogen cooled magnesium diboride (MgB2) magnet for persistent-mode operation. Soaring price for liquid helium has increased demand for cryogen-free superconducting magnets more than ever. If magnetic resonance imaging magnets, which represent over 50 per cent of the world superconducting markets, could be operated without liquid helium, magnetic resonance imaging would be much more affordable and enable reduced health care costs.
The development of flexible, graded plasma surface engineered coatings for superior interfacial performance. The next generation of intraocular lenses, medical devices to treat patients with cataracts, will be developed through application of advanced surface engineering technologies. These superior coated lenses will improve biocompatibility and function, leading to additional benefit for the forecasted 2.7 million Australians with cataracts by 2021.