Smart materials from semi-soft particles. This project will combine precision polymer chemistry to material science to develop structured nanoparticles for applications in photonics and shape memory materials.
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
Organic-inorganic hybrids via a combination of ring opening metathesis polymerisation, Thiol-Ene Click chemistry and Sol-Gel reactions. The research aims to develop a fast and efficient process for the preparation of advanced organic-inorganic materials. The successful completion of this research will yield new materials that may be exploited in advanced specialty applications including in biomedical and fuel cell areas.
Discovery Early Career Researcher Award - Grant ID: DE180100294
Funder
Australian Research Council
Funding Amount
$368,446.00
Summary
Topochemical conversion of layers of graphene into diamond-like thin films. This project aims to experimentally convert layers of graphene into diamond-like thin films via novel chemical hydrogenation and fluorination approaches. Unconventional diamond-like thin films that possess remarkable physicochemical properties will be produced to trigger significant theoretical and technological interests in nano-carbon research. The project expects to impact the fundamental understanding of this new cla ....Topochemical conversion of layers of graphene into diamond-like thin films. This project aims to experimentally convert layers of graphene into diamond-like thin films via novel chemical hydrogenation and fluorination approaches. Unconventional diamond-like thin films that possess remarkable physicochemical properties will be produced to trigger significant theoretical and technological interests in nano-carbon research. The project expects to impact the fundamental understanding of this new class of graphene-derived materials whilst driving cutting-edge technological advances in electrochemical applications, membrane technologies and quantum computing.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100741
Funder
Australian Research Council
Funding Amount
$372,386.00
Summary
How genomics is shaping healthcare: an ethnographic study. This project aims to generate new understandings of how science and biomedicine are co-producing and shaping healthcare. This will be achieved by combining hospital and laboratory ethnography to examine how genomic data is produced, circulated and applied in clinical settings. The project aims to build a theoretical framework and conceptual understanding of genomic medicine that may be used by practitioners and may inform policy. This pr ....How genomics is shaping healthcare: an ethnographic study. This project aims to generate new understandings of how science and biomedicine are co-producing and shaping healthcare. This will be achieved by combining hospital and laboratory ethnography to examine how genomic data is produced, circulated and applied in clinical settings. The project aims to build a theoretical framework and conceptual understanding of genomic medicine that may be used by practitioners and may inform policy. This project should provide significant benefits such as minimising costs by helping identify and streamline decision-making processes, and by showing how public engagement practices shape patients' and practitioners' approaches to genomics.Read moreRead less
Smart magnetic resonance imaging (MRI) contrast agents: from early detection to assessment of drug delivery mechanisms. 'Smart' contrast agents will be developed for enhancing the performance of magnetic resonance imaging (MRI) of diseases such as cancer by designing them to be triggered by biochemical markers for disease. This has the potential to aid in early detection which can lead to lower mortality rates and consequently a lower burden on the health system.
Traceable theranostics: tools for visualising drug delivery and therapeutic benefit in vivo. Forty-three thousand people died from cancer in Australia in 2010. The aim of this project is to advance the concept of 'personalised-therapy' through the development of novel imaging devices based on polymers that can 'switch-on' and deliver drugs in specific tissues, allowing more sensitive and earlier detection and monitoring of diseases and therapies.
Enabling diamond nanoelectronics with metal oxide induced surface doping. This project aims to use diamond for radio frequency power electronics. This builds on the investigator’s success in controlling diamond surface conductivity using transition metal oxides. Diamond is highly desirable for building high-power, high-frequency electronic devices, particularly for use in electrical power control/conversion and telecommunication. The lack of effective and stable doping methods has impeded the re ....Enabling diamond nanoelectronics with metal oxide induced surface doping. This project aims to use diamond for radio frequency power electronics. This builds on the investigator’s success in controlling diamond surface conductivity using transition metal oxides. Diamond is highly desirable for building high-power, high-frequency electronic devices, particularly for use in electrical power control/conversion and telecommunication. The lack of effective and stable doping methods has impeded the realisation of this prospect. This project expects the high performance and technically viable device technologies will enable diamond electronic devices for applications in telecommunications, radars and the next-generation electricity grid.Read moreRead less
The crucial role of organic-inorganic interfaces in the performance of organic optoelectronic devices. Organic electronic devices such as organic light emitting diodes and organic solar cells are expected to lead to substantial benefits over conventional electronic components. However, there is increasing evidence that the interface between the organic layers and the inorganic electrodes (or active components in hybrid devices) could be sub-optimal in terms of critical properties such as electro ....The crucial role of organic-inorganic interfaces in the performance of organic optoelectronic devices. Organic electronic devices such as organic light emitting diodes and organic solar cells are expected to lead to substantial benefits over conventional electronic components. However, there is increasing evidence that the interface between the organic layers and the inorganic electrodes (or active components in hybrid devices) could be sub-optimal in terms of critical properties such as electron transfer and stability. The aim of this project is to understand the structure and properties of such interfaces and to probe their behaviour at elevated temperatures. The results will pave the way for organic electronic devices to become a commercial reality.Read moreRead less
High-brightness, low-efficiency roll-off materials for augmented realities. The proposal aims to apply new materials design theory to create new classes of highly efficient materials and overcome device efficiency roll-off issue for next-generation transparent electronics. The project expects to advance new see-through technology through new materials and device architectures innovations. Expected key outcomes include novel highly efficient multi-nuclear metal complexes generation, establishment ....High-brightness, low-efficiency roll-off materials for augmented realities. The proposal aims to apply new materials design theory to create new classes of highly efficient materials and overcome device efficiency roll-off issue for next-generation transparent electronics. The project expects to advance new see-through technology through new materials and device architectures innovations. Expected key outcomes include novel highly efficient multi-nuclear metal complexes generation, establishment of new knowledge of materials’ structure-property relationship and fundamental understanding of device physics, creation of new transparent display pixels, new training of young scientists and new IPs generation, which will provide benefits to maximise Australia's competitive advantages and meet with global innovation need.Read moreRead less