Carbonaceous adsorbents for ultra-high performance liquid chromatography. This project aims to develop a new generation of mechanically and thermally stable carbon-nanocarbon composite adsorbents for ultra-high-performance liquid chromatography. The structure of adsorbents will be constructed according to advanced core-shell design with non-porous carbon central core and porous shell formed by highly ordered uniform nanocarbon particles. The unique properties of carbon-nanocarbon composite adsor ....Carbonaceous adsorbents for ultra-high performance liquid chromatography. This project aims to develop a new generation of mechanically and thermally stable carbon-nanocarbon composite adsorbents for ultra-high-performance liquid chromatography. The structure of adsorbents will be constructed according to advanced core-shell design with non-porous carbon central core and porous shell formed by highly ordered uniform nanocarbon particles. The unique properties of carbon-nanocarbon composite adsorbents will put liquid chromatography to qualitatively new levels of the separation performance that may open new possibilities for medicine and biodiagnostics. The resulting technology also has a strong potential to be used in other priority areas such as preparation of electrodes and supercapacitors for energy storage devices.Read moreRead less
On-fibre separation science with ambient ionisation mass spectrometry. This project aims to combine fibre-based electrofluidics and ambient ionisation mass spectrometry. Fibre-based electrophoresis is a separation technology which is cheaper, simpler and faster than pre-MS analyses. This project will use the fibre simultaneously as the ionisation platform for ambient mass spectrometry, combining the processes of separation and ionisation in a portable and flexible platform. The developed technol ....On-fibre separation science with ambient ionisation mass spectrometry. This project aims to combine fibre-based electrofluidics and ambient ionisation mass spectrometry. Fibre-based electrophoresis is a separation technology which is cheaper, simpler and faster than pre-MS analyses. This project will use the fibre simultaneously as the ionisation platform for ambient mass spectrometry, combining the processes of separation and ionisation in a portable and flexible platform. The developed technology is expected to provide new capability in bioanalysis, proteomics and rapid clinical diagnostics. Future benefits may include new commercial fibre based technologies which could be applied within industrial and clinical laboratories within the next ten years.Read moreRead less
ARC Centre of Excellence for Electromaterials Science. The ARC Centre of Excellence for Electromaterials Science (ACES) will create next generation electrochemical devices via the precision assembly of nano/micro dimensional components into macroscopic structures. Through the discovery of new materials and structures, and understanding how spatial arrangement in 3D influences chemical, physical and biological properties, ACES will define the cutting edge of Electromaterials Science. The resultin ....ARC Centre of Excellence for Electromaterials Science. The ARC Centre of Excellence for Electromaterials Science (ACES) will create next generation electrochemical devices via the precision assembly of nano/micro dimensional components into macroscopic structures. Through the discovery of new materials and structures, and understanding how spatial arrangement in 3D influences chemical, physical and biological properties, ACES will define the cutting edge of Electromaterials Science. The resulting technology breakthroughs will have a direct impact on some of today's most challenging global problems in clean energy, synthetic biosystems, diagnostics and soft robotics. National benefit to Australia will be realised through the creation of new manufacturing industries.Read moreRead less
Lectin based open tubular micro-reactors for probing protein-protein binding. This project seeks to develop non-invasive technology for the measurement and quantitation of lectin-carbohydrate binding events, in the first instance glycopeptides and glycoproteins. The goal is not only to provide accurate protein-protein association and dissociation constant data within the developed system, but to do so within an enclosed micro-fluidic environment, with the added advantages of also providing ‘trap ....Lectin based open tubular micro-reactors for probing protein-protein binding. This project seeks to develop non-invasive technology for the measurement and quantitation of lectin-carbohydrate binding events, in the first instance glycopeptides and glycoproteins. The goal is not only to provide accurate protein-protein association and dissociation constant data within the developed system, but to do so within an enclosed micro-fluidic environment, with the added advantages of also providing ‘trap and release’ extraction capabilities, and being easily coupled to both chromatographic and mass spectrometry systems. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100009
Funder
Australian Research Council
Funding Amount
$620,000.00
Summary
Magnetometry Facility for Molecular and Nanoscale Materials. Advances in information and communications technology are critically dependent on increasing the capacity, speed and energy efficiency of logic and memory electronic devices. These improvements can be achieved by reducing component size to the nanoscale and using magnetic spin as well as charge. This Project aims to establish Australia's first integrated Magnetometry Facility for determining the magnetic properties of a range of nanosc ....Magnetometry Facility for Molecular and Nanoscale Materials. Advances in information and communications technology are critically dependent on increasing the capacity, speed and energy efficiency of logic and memory electronic devices. These improvements can be achieved by reducing component size to the nanoscale and using magnetic spin as well as charge. This Project aims to establish Australia's first integrated Magnetometry Facility for determining the magnetic properties of a range of nanoscale materials down to the level of individual nanomagnets. The Facility will provide crucial characterisation capabilities for Australian researchers, building capacity to develop new magnetic nanomaterials and devices for high-density data storage, quantum computing and spintronics.
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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
Bridging scales in remote sensing of vegetation stress. This project aims to develop operational upscaling algorithms to map vegetation stress indicators from space-borne missions’ optical observations of the Earth. These approaches use computer radiative transfer models and unmanned aircraft systems called drones, and will pave the way for regular satellite monitoring of plant health in extensive and inaccessible Australian and Antarctic areas. More accurate and timely remote sensing maps of ea ....Bridging scales in remote sensing of vegetation stress. This project aims to develop operational upscaling algorithms to map vegetation stress indicators from space-borne missions’ optical observations of the Earth. These approaches use computer radiative transfer models and unmanned aircraft systems called drones, and will pave the way for regular satellite monitoring of plant health in extensive and inaccessible Australian and Antarctic areas. More accurate and timely remote sensing maps of early stress symptoms will provide early warnings of droughts, diseases and pests, tell when and where to protect ecological functions of wild natural systems, and help to sustain or even increase agricultural food production.Read moreRead less
Creating a national time and frequency network for Australia. This project will develop the means to distribute accurate time and frequency across the Australian continent via an optical fibre network. This network will meet the needs of future telecommunications, science and astronomy projects including the Australian bid for the Square Kilometre Array radio-astronomy project.
Material Transfer Agreements and Open Science in the Genome Era. Research paradigms are changing rapidly in the Genome Era. Open access databases are increasingly popular and are required by public funding agencies. The role of material transfer agreements (MTAs) in this open access era is not clear. This project aims to assess the extent to which MTAs facilitate exchanges of biological materials between organisation in Australia and internationally. The project will assess whether MTAs are refl ....Material Transfer Agreements and Open Science in the Genome Era. Research paradigms are changing rapidly in the Genome Era. Open access databases are increasingly popular and are required by public funding agencies. The role of material transfer agreements (MTAs) in this open access era is not clear. This project aims to assess the extent to which MTAs facilitate exchanges of biological materials between organisation in Australia and internationally. The project will assess whether MTAs are reflecting the open data access movement or maintaining traditional closed proprietary practices. The project will make policy, ethical and legal recommendations for the development of MTAs to promote exchange of materials nationally and internationally and to facilitate the developing collaborative research culture. Read moreRead less
Special Research Initiatives - Grant ID: SR120200004
Funder
Australian Research Council
Funding Amount
$30,000,000.00
Summary
Australian Synchrotron Access Program. The Australian Synchrotron epitomises scientific research excellence in Australian and New Zealand. Its impact spans nearly every research sector. This proposal brings together over 30 Australian universities working together to ensure that world-class peer-reviewed science continues to be performed at the Australian Synchrotron.