Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100181
Funder
Australian Research Council
Funding Amount
$650,000.00
Summary
Strengthening merit-based access and support at the new National Computing Infrastructure petascale supercomputing facility. World-leading high-performance computing is fundamental to Australia's international research success. This facility will provide access to the new National Computational Infrastructure facility by world-leading researchers from six research universities, and sustain ground-breaking work in an increasingly competitive environment.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100043
Funder
Australian Research Council
Funding Amount
$435,279.00
Summary
High-throughput portable and wearable device fabrication facility. This project aims to establish a fabrication and characterisation facility for high-throughput production of portable, wearable and stretchable biomedical devices to accelerate the design–fabrication–evaluation process and save ‘trial-and-error’ costs during optimisation turnaround. It will apply computer-aided design for the programmable synthesis of hybrid materials for high-throughput screening of disease biomarkers, and super ....High-throughput portable and wearable device fabrication facility. This project aims to establish a fabrication and characterisation facility for high-throughput production of portable, wearable and stretchable biomedical devices to accelerate the design–fabrication–evaluation process and save ‘trial-and-error’ costs during optimisation turnaround. It will apply computer-aided design for the programmable synthesis of hybrid materials for high-throughput screening of disease biomarkers, and super-solution imaging of single molecules in live cells. This facility will provide capability for researchers pursuing industry transformation and other initiatives in the development of advanced materials, biomolecular sciences, nanotechnology, photonics and device engineering.Read moreRead less
Closing the data gap: High throughput screening of nanoparticle toxicity. The nanotechnology sector is experiencing an exponential growth period with over 100 products containing manufactured nanoparticles entering the market every year. Ensuring growth of the sector needs to be balanced against the imperative of protecting both human and environmental safety. This project aims to develop new methodological and conceptual avenues to close the gap between innovation in nanotechnology and risk ass ....Closing the data gap: High throughput screening of nanoparticle toxicity. The nanotechnology sector is experiencing an exponential growth period with over 100 products containing manufactured nanoparticles entering the market every year. Ensuring growth of the sector needs to be balanced against the imperative of protecting both human and environmental safety. This project aims to develop new methodological and conceptual avenues to close the gap between innovation in nanotechnology and risk assessment. This is intended to be achieved by developing and validating high-throughput in vitro toxicity screening platforms for manufactured nanoparticles. The approach is based on advanced lab-on-a-chip microfluidic technologies. The predictive power of the platform will be refined and optimised via ex-vivo and in-vivo models.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100030
Funder
Australian Research Council
Funding Amount
$541,705.00
Summary
National facility for nanoscale characterisation of luminescent materials. The project aims to establish a national facility for nanoscale characterisation of advanced optoelectronic materials, including atomically-thin materials, luminescent nanocrystals, metamaterials, and plasmonic nanostructures. The combination of a highly focused electron beam, and novel light detection optics, will enable temperature-dependent, angle, polarisation and time-resolved luminescence analysis with unprecedented ....National facility for nanoscale characterisation of luminescent materials. The project aims to establish a national facility for nanoscale characterisation of advanced optoelectronic materials, including atomically-thin materials, luminescent nanocrystals, metamaterials, and plasmonic nanostructures. The combination of a highly focused electron beam, and novel light detection optics, will enable temperature-dependent, angle, polarisation and time-resolved luminescence analysis with unprecedented resolution. It is expected this will yield discoveries in nanoscale physics and materials science. It will create interdisciplinary collaborations by linking Australian scientists who use high-resolution multimodal characterisation methods to innovate and develop materials and device technologies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100118
Funder
Australian Research Council
Funding Amount
$159,450.00
Summary
Sensor calibration facility for spectral and thermal remote sensing. This project aims to establish a calibration facility for the radiometric and spectral correction of hyperspectral and thermal sensors for ultrahigh-resolution remote sensing. Sensor calibration and characterisation is critical to the accuracy of hyperspectral and thermal data products, however, there is no central facility in Australia for this purpose. This project will provide significant benefits, such as growing our capaci ....Sensor calibration facility for spectral and thermal remote sensing. This project aims to establish a calibration facility for the radiometric and spectral correction of hyperspectral and thermal sensors for ultrahigh-resolution remote sensing. Sensor calibration and characterisation is critical to the accuracy of hyperspectral and thermal data products, however, there is no central facility in Australia for this purpose. This project will provide significant benefits, such as growing our capacity in ultrahigh-resolution remote sensing for ecosystem science, biosecurity, and disaster response.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100066
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Collaborative embodied movement design network. This project aims to create a national collaborative network of arts/technology researchers to study the creative potential of movement-based human computer interaction systems. Movement-based technologies such as augmented and virtual reality, haptic and robotic interfaces form the cutting edge of human computer interaction development. This project will develop new infrastructure to enable researchers to work together to improve these systems fro ....Collaborative embodied movement design network. This project aims to create a national collaborative network of arts/technology researchers to study the creative potential of movement-based human computer interaction systems. Movement-based technologies such as augmented and virtual reality, haptic and robotic interfaces form the cutting edge of human computer interaction development. This project will develop new infrastructure to enable researchers to work together to improve these systems from an embodied perspective. This is expected to benefit industry, commerce, education, health care and the arts.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
A highly sensitive and selective nano-engineered sensor for the online monitoring of mercury vapour emissions from harsh industrial processes. The Australian alumina and aluminium industries contribute over $11 billion export income annually. All refineries, except one, operate in rural areas and are the main economic drivers in these regions. In order to maintain the industry's commitment to reduce the environmental impact of its processes and remain economically sustainable, innovative technol ....A highly sensitive and selective nano-engineered sensor for the online monitoring of mercury vapour emissions from harsh industrial processes. The Australian alumina and aluminium industries contribute over $11 billion export income annually. All refineries, except one, operate in rural areas and are the main economic drivers in these regions. In order to maintain the industry's commitment to reduce the environmental impact of its processes and remain economically sustainable, innovative technologies are required to monitor mercury emissions. The aim of this project is to develop robust sensors, for online monitoring of mercury vapours, that operate under challenging industrial environments. This project will also provide excellent training for young researchers in established international industrial research groups, thereby meeting skill shortages in the Australian resource sector.Read moreRead less