Discovery Early Career Researcher Award - Grant ID: DE210100019
Funder
Australian Research Council
Funding Amount
$408,000.00
Summary
A Scalable and Adaptive-Resilient Blockchain. This project aims to address the security and scalability challenges that limit blockchain adoption. Existing blockchains do not scale and are vulnerable to attacks (e.g. with a total loss of over US$1 billion in 2019). This project expects to improve security by adaptively enforcing the currently broken security assumptions, and to improve scalability by designing blockchains with high concurrency via relaxed criteria on the ordering of transactions ....A Scalable and Adaptive-Resilient Blockchain. This project aims to address the security and scalability challenges that limit blockchain adoption. Existing blockchains do not scale and are vulnerable to attacks (e.g. with a total loss of over US$1 billion in 2019). This project expects to improve security by adaptively enforcing the currently broken security assumptions, and to improve scalability by designing blockchains with high concurrency via relaxed criteria on the ordering of transactions. The expected outcomes include foundations and practical solutions for self-adaptive, secure and scalable blockchains. The benefits of this would be improved confidence in and capacity for building blockchain applications, which have a predicted value of over US$3.1 trillion by 2030.Read moreRead less
Superconducting silicon nanodevices. This project will investigate superconductivity in silicon nanowire devices exhibiting both p-type and n-type conductivity. It builds on the recent demonstration at the University of Melbourne of superconductivity in nanowire devices at length-scales suitable for realisation of a broad range of superconducting device structures and utilises standard semiconductor-industry processes. This project will create a new platform for superconducting device developmen ....Superconducting silicon nanodevices. This project will investigate superconductivity in silicon nanowire devices exhibiting both p-type and n-type conductivity. It builds on the recent demonstration at the University of Melbourne of superconductivity in nanowire devices at length-scales suitable for realisation of a broad range of superconducting device structures and utilises standard semiconductor-industry processes. This project will create a new platform for superconducting device development in silicon with potential for building devices with new functionality and improved performance for applications in quantum information technologies, enhancing Australia’s global reputation in quantum information science and assisting emerging industries in this high-valued added area.Read moreRead less
Framing and Enabling Children’s Active Play using Novel Technology. This project aims to address inactivity in the 3-5 age group through understanding and exploring innovative interactive active play experiences for children, with a view to increasing their physical activity over the long term. This project will be based on empirical research with real children undertaking real interactive experiences in real contexts, in order to understand issues around sustained engagement with these types of ....Framing and Enabling Children’s Active Play using Novel Technology. This project aims to address inactivity in the 3-5 age group through understanding and exploring innovative interactive active play experiences for children, with a view to increasing their physical activity over the long term. This project will be based on empirical research with real children undertaking real interactive experiences in real contexts, in order to understand issues around sustained engagement with these types of systems. We will design and develop solutions that may address the issues and test those interventions in a longitudinal manner. The outcome will be a framework which can be applied in a variety of situations and modalities by designers and developers of such systems, and feed into childhood technology guidelines.
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Digital media, location awareness, and the politics of geodata. This project aims to examine the increasingly pervasive role of location metadata, or geodata, in Australian smartphone practices and cultures and the implications this has for users, industry, and public administration. The project will deliver online and open resources to enhance public understanding of geodata and geoprivacy, as well as industry and policy recommendations that address the crucial issue of ‘location awareness’ in ....Digital media, location awareness, and the politics of geodata. This project aims to examine the increasingly pervasive role of location metadata, or geodata, in Australian smartphone practices and cultures and the implications this has for users, industry, and public administration. The project will deliver online and open resources to enhance public understanding of geodata and geoprivacy, as well as industry and policy recommendations that address the crucial issue of ‘location awareness’ in everyday digital media use. The project will generate new insights into the critical role of geodata in everyday digital media use and will contribute to broader public discussion about data privacy, surveillance and cybersecurity. Its findings will also provide industry benefits, enhancing developers’ understanding of how everyday users apprehend and negotiate the privacy implications of location services.Read moreRead less
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
Engineer enzyme nanoparticles as antibiotic alternatives for agriculture. Antibiotic usage in agriculture contributes to spread of resistant bacteria. Existing antibiotic alternatives to minimize such usage are focused on growth promotion of animals and infection prevention, but lack efficient treatment. This project aims to engineer enzyme nanoparticles, with synergy from multiple enzymes, to confer better antibacterial abilities against livestock pathogens. It will combine protein engineering, ....Engineer enzyme nanoparticles as antibiotic alternatives for agriculture. Antibiotic usage in agriculture contributes to spread of resistant bacteria. Existing antibiotic alternatives to minimize such usage are focused on growth promotion of animals and infection prevention, but lack efficient treatment. This project aims to engineer enzyme nanoparticles, with synergy from multiple enzymes, to confer better antibacterial abilities against livestock pathogens. It will combine protein engineering, nanotechnology and biophysics to develop new enzyme nanoparticles that can be manufactured at low-cost through self-assembly process. The intended outcome is knowledge on molecular engineering of enzyme nanoparticles and innovative agriculture biotechnology for treatment of bacterial infectious diseases in livestock.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH150100024
Funder
Australian Research Council
Funding Amount
$2,799,251.00
Summary
ARC Research Hub for Advanced Manufacturing of Medical Devices. ARC Research Hub for Advanced Manufacturing of Personalised Medical Devices. The project aims to transform Australia’s $10.8 billion medical technology sector by developing cost competitive technologies for the rapid production of personalised devices for Endovascular Aneurysm Repair (EVAR). To ensure the Australian industry remains globally competitive, this hub seeks to concurrently develop materials, technologies and flexible man ....ARC Research Hub for Advanced Manufacturing of Medical Devices. ARC Research Hub for Advanced Manufacturing of Personalised Medical Devices. The project aims to transform Australia’s $10.8 billion medical technology sector by developing cost competitive technologies for the rapid production of personalised devices for Endovascular Aneurysm Repair (EVAR). To ensure the Australian industry remains globally competitive, this hub seeks to concurrently develop materials, technologies and flexible manufacturing processes. The intended research outcomes include more efficient design and manufacturing processes and a new range of EVAR products generating increased market share and higher workforce capability. The resulting impacts should be better health outcomes, job creation and providing SMEs with new technologies and skills that can be transferred to the manufacture of products for other sectors.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100040
Funder
Australian Research Council
Funding Amount
$699,664.00
Summary
Multifunctional deposition system for advanced superconducting circuits. This project aims to create a one-stop facility to enhance Australia’s capacity to develop superconducting quantum technology centred on the unique capabilities of a Multifunctional Deposition System. The project will enable and expedite nanofabrication of complex circuits and expects to pioneer novel superconducting and hybrid quantum technologies, and high-tech classical devices for clean-energy and biomedical application ....Multifunctional deposition system for advanced superconducting circuits. This project aims to create a one-stop facility to enhance Australia’s capacity to develop superconducting quantum technology centred on the unique capabilities of a Multifunctional Deposition System. The project will enable and expedite nanofabrication of complex circuits and expects to pioneer novel superconducting and hybrid quantum technologies, and high-tech classical devices for clean-energy and biomedical applications. Expected outcomes include robust multi-institutional and cross-disciplinary collaborations, and increased translation between cutting-edge theory and commercial prototypes. Benefits should include stronger industry engagement, training for next-generation innovators and a boost to Australian advanced manufacturing.Read moreRead less
Communicating to promote engagement in using electronic medical records. This reflexive ethnographic and co-design project aims to examine how patient and family participation occurs with health professionals in using the electronic medical record within hospitals, especially for patients with complex needs. Its significance involves working with patients and families to consider how they could take part in decision making activities across transitions of care and influence health care activitie ....Communicating to promote engagement in using electronic medical records. This reflexive ethnographic and co-design project aims to examine how patient and family participation occurs with health professionals in using the electronic medical record within hospitals, especially for patients with complex needs. Its significance involves working with patients and families to consider how they could take part in decision making activities across transitions of care and influence health care activities. Outcomes are new knowledge and practices about how communication occurs with the electronic medical record and strategies adopted for effective engagement. Benefits are increased understanding of how and under what circumstances, engagement can take place in using the electronic medical record.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210101129
Funder
Australian Research Council
Funding Amount
$425,948.00
Summary
Two-Dimensional Material Tandem Detectors for Polarimetry and Spectroscopy. The aim of this project is to leverage the fundamental advantages that two-dimensional (2D) materials could provide to vertically-stacked (tandem) photodetectors. The strong absorption, tunable bandgap and polarisation dependence that many 2D materials exhibit, provides a means by which to detect properties of light. This topic is significant because it could overcome current cost/performance issues of tandem detectors, .... Two-Dimensional Material Tandem Detectors for Polarimetry and Spectroscopy. The aim of this project is to leverage the fundamental advantages that two-dimensional (2D) materials could provide to vertically-stacked (tandem) photodetectors. The strong absorption, tunable bandgap and polarisation dependence that many 2D materials exhibit, provides a means by which to detect properties of light. This topic is significant because it could overcome current cost/performance issues of tandem detectors, enabling widespread usage. The expected project outcome is the development of a novel tandem 2D detector, which as a single detector/pixel, can extract the intensity, polarisation and wavelength region of incoming light. This would provide benefits for many future applications, including machine vision and aerial surveying.Read moreRead less