Nanoparticle driven templating of microspheres as chromatographic materials. This project aims to pioneer a novel, high-performing class of nano-patterned core-shell particles as chromatographic materials. It will use advanced polymerization and particle preparation techniques in combination with degradable nanoparticles design, to enable the plug-and-play assembly of chromatographic columns. Size-exclusion chromatography (SEC) is one of the most important analytical techniques for polymer chem ....Nanoparticle driven templating of microspheres as chromatographic materials. This project aims to pioneer a novel, high-performing class of nano-patterned core-shell particles as chromatographic materials. It will use advanced polymerization and particle preparation techniques in combination with degradable nanoparticles design, to enable the plug-and-play assembly of chromatographic columns. Size-exclusion chromatography (SEC) is one of the most important analytical techniques for polymer chemistry. The expected outcomes of this project are faster measurement times and the possibility of imaging molecular weight distributions at a new level of detail. This project could place Australia at the cutting edge of size-exclusion chromatography phase design in partnership with a leading manufacturer of stationary phases.Read moreRead less
Development of ozone-induced dissociation for lipidomics workflows. An Australian invention (ozone induced dissociation) will be developed in collaboration with a major instrument manufacturer. This project will provide Australian researchers with unique capabilities to investigate the role of lipids (fats) in human disease and will place them at the forefront of lipid research internationally.
Liquid crystal-based optical fibre hydrophone system for underwater surveillance and ocean monitoring. The aim of this project is to design, implement and optimise a new class of optical sensing system which targets underwater surveillance and ocean monitoring. This project is expected to lead to improved national security, broaden Australia's photonics knowledge base, and contribute to greater international scientific collaboration.
Correction of non-linearity in inductively-coupled-plasma mass-spectrometry. Chemical analyses by mass spectrometers underpin key Australian economic sectors, particularly minerals and agriculture. The quadrupole inductively-coupled-plasma mass-spectrometer has seen a particular rise in prominence over last 25 years. In this collaboration between mass spectrometrists and the leading instrument designer, we will improve the linearity of its detection system for more precise and accurate data. Bet ....Correction of non-linearity in inductively-coupled-plasma mass-spectrometry. Chemical analyses by mass spectrometers underpin key Australian economic sectors, particularly minerals and agriculture. The quadrupole inductively-coupled-plasma mass-spectrometer has seen a particular rise in prominence over last 25 years. In this collaboration between mass spectrometrists and the leading instrument designer, we will improve the linearity of its detection system for more precise and accurate data. Better elemental and isotope ratio data from these high-throughput instruments will open up new real-world applications in many areas of Australian interest, such as biosecurity, forensics, groundwater management, and drug design. The research will also inform design of the next generation instruments by the industry partner.Read moreRead less
High-cadence near-infrared imaging. This project aims to deploy a cryogenic camera system to improve the outputs of astronomical telescopes. The system is equipped with an emerging detector technology, a near-infrared Avalanche Photo-Diode array, capable of high cadence imaging with frame rates of 10 - 1,000 Hz at a wavelength of around 2.2 microns. This new technology is a key component to the future of adaptive optics systems for astronomical telescopes as it allows the rapid measurements nece ....High-cadence near-infrared imaging. This project aims to deploy a cryogenic camera system to improve the outputs of astronomical telescopes. The system is equipped with an emerging detector technology, a near-infrared Avalanche Photo-Diode array, capable of high cadence imaging with frame rates of 10 - 1,000 Hz at a wavelength of around 2.2 microns. This new technology is a key component to the future of adaptive optics systems for astronomical telescopes as it allows the rapid measurements necessary to correct the image blurring introduced by the Earth's atmosphere. No expertise currently exists in Australia with this new technology. Capitalising on previous investment, the camera system is intended to fill a capability gap in local expertise and to ensure the potential of the next generation of telescopes is realised and strengthen our competitive edge for frontier instrumentation across the wider Australian imaging community.Read moreRead less
Integration of DNA switches into wearables for smart chemical monitoring. This project addresses the scientific challenge of real-time monitoring of dynamic biological changes in the secretions found in sweat. By creating a wearable wireless device to monitor chemicals which interests Nutromics, using a novel electronic skin technology platform, the work aims to generate new knowledge of physiological changes in sweat secretions. Lying at the interface of analytical chemistry, functional materia ....Integration of DNA switches into wearables for smart chemical monitoring. This project addresses the scientific challenge of real-time monitoring of dynamic biological changes in the secretions found in sweat. By creating a wearable wireless device to monitor chemicals which interests Nutromics, using a novel electronic skin technology platform, the work aims to generate new knowledge of physiological changes in sweat secretions. Lying at the interface of analytical chemistry, functional materials and biomedical engineering, the project will contribute to the training of young researchers in these emerging technologies which interest Nutromics Pty Ltd. The project will improve Australia's standing in technology around wearable devices, improving our global competitive edge with economic and scientific impact.Read moreRead less
New hyphenated chromatographic and spectroscopic methods for oil analysis. This project aims to use novel chemical separation methods combined with spectroscopy to identify useful markers in olive oil and essential oil to ensure purity, quality and authenticity, which are all ongoing issues in these industries in Australia and overseas. The project plans to compare and integrate results of multidimensional gas chromatography combined with mass spectrometry and Fourier transform infrared analyses ....New hyphenated chromatographic and spectroscopic methods for oil analysis. This project aims to use novel chemical separation methods combined with spectroscopy to identify useful markers in olive oil and essential oil to ensure purity, quality and authenticity, which are all ongoing issues in these industries in Australia and overseas. The project plans to compare and integrate results of multidimensional gas chromatography combined with mass spectrometry and Fourier transform infrared analyses with data libraries to generate precise molecular identification. The outcome is expected to help monitor adulteration of oils and maintain the high quality standards of Australian produce.Read moreRead less
Development of mock circulatory system for complex haemodynamic modelling. This project aims to develop a unique mock experimental system to study blood flow dynamics in anatomically realistic coronary artery phantoms. The field of cardiology involves complex fluid dynamic problems, which require the expertise of the fluid dynamics engineer to understand the hemodynamics. Significant innovation in manufacturing and experimental measurement methodologies will be required to develop accurate model ....Development of mock circulatory system for complex haemodynamic modelling. This project aims to develop a unique mock experimental system to study blood flow dynamics in anatomically realistic coronary artery phantoms. The field of cardiology involves complex fluid dynamic problems, which require the expertise of the fluid dynamics engineer to understand the hemodynamics. Significant innovation in manufacturing and experimental measurement methodologies will be required to develop accurate models, which will be designed to allow the partner organisation to undertake further hemodynamic research.Read moreRead less
In vivo molecular imaging using engineered affinity reagents and fluorescent laser scanning confocal endomicroscopy. The goal of this project is to develop laser scanning confocal endomicroscopy as a tool for basic scientific discovery and rapid detection of disease biomarkers. The cutting-edge instrument and associated technologies will provide scientists with unprecedented access to dynamic biological processes as they occur in real-time. In addition, it will enable the development of virtual ....In vivo molecular imaging using engineered affinity reagents and fluorescent laser scanning confocal endomicroscopy. The goal of this project is to develop laser scanning confocal endomicroscopy as a tool for basic scientific discovery and rapid detection of disease biomarkers. The cutting-edge instrument and associated technologies will provide scientists with unprecedented access to dynamic biological processes as they occur in real-time. In addition, it will enable the development of virtual biopsies and instant diagnosis without the need for costly and time-consuming histopathological reports. Thus, it will not only drive transformative research but also transform health care delivery. It will also be a major boost to the Australian biotechnology industry with potential for enormous economic benefits.Read moreRead less
High-resolution optical studies of solids nucleation in cryogenic processes. During liquefied natural gas (LNG) production, low concentration impurities can freeze and block the cryogenic heat exchangers at the heart of the liquefaction process. Substantial knowledge gaps exist regarding the kinetics of these solids (i.e. the rate at which they form), especially at the part per million concentrations relevant to LNG. This project, in partnership with ExxonMobil Upstream Research Company, will us ....High-resolution optical studies of solids nucleation in cryogenic processes. During liquefied natural gas (LNG) production, low concentration impurities can freeze and block the cryogenic heat exchangers at the heart of the liquefaction process. Substantial knowledge gaps exist regarding the kinetics of these solids (i.e. the rate at which they form), especially at the part per million concentrations relevant to LNG. This project, in partnership with ExxonMobil Upstream Research Company, will use a proven high resolution optical technique to deliver new insight into solid nucleation and growth kinetics in the high-pressure cryogenic fluids that govern industrial blockage risk. The results will enable energy optimisation to increase liquefaction efficiency as well as tests of innovative blockage-remediation methods.Read moreRead less