Paper fluidics - A novel approach to low cost printable microsensors. Printing is perhaps the cheapest means of mass production available, yet it is used almost exclusively to mass produce only one thing, i.e. the printed word! This project will enable the development of disposable printed sensors for assessing the quality of water or the health of an individual. Sensors are generally relatively expensive, but the ability to print them on paper by the thousand will bring down the cost to a few ....Paper fluidics - A novel approach to low cost printable microsensors. Printing is perhaps the cheapest means of mass production available, yet it is used almost exclusively to mass produce only one thing, i.e. the printed word! This project will enable the development of disposable printed sensors for assessing the quality of water or the health of an individual. Sensors are generally relatively expensive, but the ability to print them on paper by the thousand will bring down the cost to a few cents. Such cheap, portable, easy-to-use sensors if widely available could profoundly affect the lives of people living in remote areas and developing countries.Read moreRead less
Probing the function of protein molecular motors on nano-fabricated structures. The function of protein linear molecular motors, which are natural dynamic bio-nano-devices with a ubiquitous importance in multicellular organisms, will be 'probed' with purposefully designed nano-structures fabricated via photo- or Scanning Probe Microscopy Lithography, that is, flat polymeric surfaces with combinatorial combinations of physico-chemistries; and micro/nano-channels and nano-wells with critical dimen ....Probing the function of protein molecular motors on nano-fabricated structures. The function of protein linear molecular motors, which are natural dynamic bio-nano-devices with a ubiquitous importance in multicellular organisms, will be 'probed' with purposefully designed nano-structures fabricated via photo- or Scanning Probe Microscopy Lithography, that is, flat polymeric surfaces with combinatorial combinations of physico-chemistries; and micro/nano-channels and nano-wells with critical dimensions similar to the scale of the probed biomolecules. The project turns 'up-side down' the challenge of invasive nano-probing of biomolecules using it in an engineered manner. The fundamental understanding of linear molecular motors will impact on biomedical science and on the assessment of hybrid natural-artificial dynamic nano-devices.Read moreRead less
Drought and Salinity Tolerance in Metal Hyperaccumulating Plants: A Functional Role for the Metals? A few plant species can ?hyperaccumulate? metal ions to 100-1000 times the concentrations seen in ?normal? plants. Just why these plants have evolved such an extreme response to metalliferous soils remains an enigma. Many of the hyperaccumulators so far described are endemic to xeric environments, or saline soils prone to rapid drying. We hypothesize that the metals might act as osmotica, enha ....Drought and Salinity Tolerance in Metal Hyperaccumulating Plants: A Functional Role for the Metals? A few plant species can ?hyperaccumulate? metal ions to 100-1000 times the concentrations seen in ?normal? plants. Just why these plants have evolved such an extreme response to metalliferous soils remains an enigma. Many of the hyperaccumulators so far described are endemic to xeric environments, or saline soils prone to rapid drying. We hypothesize that the metals might act as osmotica, enhancing plant survival during water stress. This will be tested for Australian native and non-native hyperaccumulator plants. The study will clarify our understanding of the evolutionary significance of hyperaccumulation, and has important applications for extracting metals from contaminated soils.Read moreRead less
Exploring Aspects of Supramolecular Chemistry as a Paradigm for Advanced Functional Materials. This research proposal aims to provide an intellectual grounding in the use of molecular recognition for the assembly of complex arrays for new materials research. The development of molecular systems and supramolecular arrays that are capable of solar energy conversion (e.g. photovoltaics and artificial photosynthesis) or that have potential applications in catalysis will provide advances in the deve ....Exploring Aspects of Supramolecular Chemistry as a Paradigm for Advanced Functional Materials. This research proposal aims to provide an intellectual grounding in the use of molecular recognition for the assembly of complex arrays for new materials research. The development of molecular systems and supramolecular arrays that are capable of solar energy conversion (e.g. photovoltaics and artificial photosynthesis) or that have potential applications in catalysis will provide advances in the development of these industries within Australia. Such developments may also lead to breakthroughs in areas such as optoelectronics and cleaner energy production. Read moreRead less
Peptide Nucleic Acid Based Sensors and Devices - An Investigation into PNA Versatility for Emerging Gene Technologies. Peptide nucleic acids (PNAs) are analogues of DNA that may have important implications as therapeutic agents for the cure of diseases based on genetic defects. The attributes of PNAs that make them potentially viable as a drug are also well suited to their development as sensors and molecular devices. In this proposal, we wish to develop a series of PNAs containing photoactive ....Peptide Nucleic Acid Based Sensors and Devices - An Investigation into PNA Versatility for Emerging Gene Technologies. Peptide nucleic acids (PNAs) are analogues of DNA that may have important implications as therapeutic agents for the cure of diseases based on genetic defects. The attributes of PNAs that make them potentially viable as a drug are also well suited to their development as sensors and molecular devices. In this proposal, we wish to develop a series of PNAs containing photoactive elements (a) as alternatives to commercially-available fluorophores, (b) for the early detection of neurodegenerative diseases and (c) to contribute to one of Science's most debated issues i.e. "does DNA mediate electron transport?"Read moreRead less
Investigations into the Versatility of Peptide Nucleic Acid Conjugates. Neurodegeneration and cancer are two of the greatest frontiers in modern medicine. They impose significant medical, financial and social burdens on sufferers, carers and the wider community. Novel technologies with the ability to help diagnosis, enlighten researchers to the biological principles governing the disease and that can make a contribution to prevention, quality of life issues and survival of sufferers are of utmos ....Investigations into the Versatility of Peptide Nucleic Acid Conjugates. Neurodegeneration and cancer are two of the greatest frontiers in modern medicine. They impose significant medical, financial and social burdens on sufferers, carers and the wider community. Novel technologies with the ability to help diagnosis, enlighten researchers to the biological principles governing the disease and that can make a contribution to prevention, quality of life issues and survival of sufferers are of utmost importance. This project aims to make a significant contribution to these areas using antisense technologies against some previously studied targets.Read moreRead less
Final frontier in computational modelling of movement. This project aims to create the computational models and methods needed to advance current understanding of musculoskeletal function during movement. Humans must maintain their capacity to move in order to maintain quality-of-life. Predictive modelling is potentially the most powerful approach for understanding musculoskeletal function during movement. Current computational methods are too slow and unreliable to deliver predictive simulation ....Final frontier in computational modelling of movement. This project aims to create the computational models and methods needed to advance current understanding of musculoskeletal function during movement. Humans must maintain their capacity to move in order to maintain quality-of-life. Predictive modelling is potentially the most powerful approach for understanding musculoskeletal function during movement. Current computational methods are too slow and unreliable to deliver predictive simulations of movement using realistic models of muscle and joint anatomy. This project expects to create the next generation of methods and algorithms needed to enable predictive modelling of movement. Predictive simulations will provide new insights into how muscles stabilise and control movements of the spine, pelvis and lower limbs during daily activities such as walking.Read moreRead less
Accurate Prediction of Safe Life of Buried Pipelines. Failures of buried pipes are disastrous, causing severe consequences and disruptions. They often reoccur because the fundamental cause-effect relation for pipe failures has not been fully understood and hence the safe life of pipelines cannot be reliably predicted. The aim of this research is to develop a new theory to predict pipe failures, based on a fundamental analysis of pipe behaviour and failure mechanisms and a reliability approach. T ....Accurate Prediction of Safe Life of Buried Pipelines. Failures of buried pipes are disastrous, causing severe consequences and disruptions. They often reoccur because the fundamental cause-effect relation for pipe failures has not been fully understood and hence the safe life of pipelines cannot be reliably predicted. The aim of this research is to develop a new theory to predict pipe failures, based on a fundamental analysis of pipe behaviour and failure mechanisms and a reliability approach. The outcomes will be a suite of models and solutions that will advance knowledge in deterioration science and failure theory. They will provide a sustainable solution to the intelligent management of buried pipelines throughout the world.Read moreRead less
Non-differentiable Energy Minimisation For Modelling Fractured Porous Media. This project is aimed at advancing theoretical, computational and experimental bases for the fracturing of geomaterials, and providing scientists and engineers with much needed predictive tools for quantitative assessment of the responses. By incorporating previously neglected aspects such as energy minimisation, advanced constitutive modelling, and non-planar interacting fracture growth, confidence in the design and pl ....Non-differentiable Energy Minimisation For Modelling Fractured Porous Media. This project is aimed at advancing theoretical, computational and experimental bases for the fracturing of geomaterials, and providing scientists and engineers with much needed predictive tools for quantitative assessment of the responses. By incorporating previously neglected aspects such as energy minimisation, advanced constitutive modelling, and non-planar interacting fracture growth, confidence in the design and planning of engineering processes in fractured porous media will be increased to the point that costly over/under designs are avoided. Through the use of the tools developed, it will be possible to detect weaknesses in the design, assess the impact and implement effective measures to improve performance.Read moreRead less
Robustness-oriented and serviceable design of innovative modular buildings. This project aims to unlock the full potential of prefabricated modular buildings through innovative framing solutions in combination with new evaluation methods to enhance serviceability and improve safety under extreme events. Advanced 3D hybrid testing and analysis will be used to create new knowledge on the complex system-level dynamic behaviour of modular buildings. The expected outcome of this project will lead to ....Robustness-oriented and serviceable design of innovative modular buildings. This project aims to unlock the full potential of prefabricated modular buildings through innovative framing solutions in combination with new evaluation methods to enhance serviceability and improve safety under extreme events. Advanced 3D hybrid testing and analysis will be used to create new knowledge on the complex system-level dynamic behaviour of modular buildings. The expected outcome of this project will lead to safe, affordable, and environmentally sustainabe modular building construction. The project will provide significant benefits to designers, manufacturers and regulators to improve the resilience of the building stock and to support greater design and manufacturing innovations.Read moreRead less