Highly integrated miniaturised total analysis systems for pharmaceuticals in biological and environmental samples. This project will develop three unique chemical approaches that will each overcome a challenge to the creation of advanced miniaturised analytical devices with sample-in/answer-out capability. This will provide substantial improvements in speed, cost, portability, and operational simplicity and safety. New technology for analysing drugs in body fluids will be critical to enabling pe ....Highly integrated miniaturised total analysis systems for pharmaceuticals in biological and environmental samples. This project will develop three unique chemical approaches that will each overcome a challenge to the creation of advanced miniaturised analytical devices with sample-in/answer-out capability. This will provide substantial improvements in speed, cost, portability, and operational simplicity and safety. New technology for analysing drugs in body fluids will be critical to enabling people to closely match their pharmaceutical consumption with their individual requirements. The advance will have implications for all patients, particularly those in remote and rural Australian populations. The same technology is likely to find applications in environmental monitoring of emerging pharmaceutical pollutants. Read moreRead less
Miniaturised electrophoretic systems for distributed environmental sensing. This project aims to develop new low-cost sensors to quantify a range of water nutrients for continuous automated water monitoring. The project aims to design a microfluidic cartridge to obtain a particulate-free sample for analysis by the rapid separation of inorganic anions and cations. The cartridge is intended to be operated in a portable low cost, low weight, low power instrument. The deployment of multiple units ai ....Miniaturised electrophoretic systems for distributed environmental sensing. This project aims to develop new low-cost sensors to quantify a range of water nutrients for continuous automated water monitoring. The project aims to design a microfluidic cartridge to obtain a particulate-free sample for analysis by the rapid separation of inorganic anions and cations. The cartridge is intended to be operated in a portable low cost, low weight, low power instrument. The deployment of multiple units aims to provide a continuous data stream describing the changes in nutrient profiles within various waters, to feed into environmental models and inform best practice for agriculture and aquaculture industries.Read moreRead less
Functional characterisation of contaminant-nanoparticle associations. Nanoparticles present in the environment modify the movement and toxicity of contaminants. This project targets key gaps that hinder the ability to predict the fate and behaviour of environmental contaminants; this will lead to the optimisation of legislative framework and the management/remediation of contaminated sites (for example, mine sites, landfills).
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100129
Funder
Australian Research Council
Funding Amount
$249,000.00
Summary
Microflow ultra high pressure liquid chromatography - high resolution mass spectrometry for chemical exposure monitoring. Microflow ultra high pressure liquid chromatography – high resolution mass spectrometry for chemical exposure monitoring: Identifying new chemicals of interest in environmental or biological samples is the first critical step toward understanding their impact to human and environment. A state-of-the-art microflow ultra high performance liquid chromatography high resolution ma ....Microflow ultra high pressure liquid chromatography - high resolution mass spectrometry for chemical exposure monitoring. Microflow ultra high pressure liquid chromatography – high resolution mass spectrometry for chemical exposure monitoring: Identifying new chemicals of interest in environmental or biological samples is the first critical step toward understanding their impact to human and environment. A state-of-the-art microflow ultra high performance liquid chromatography high resolution mass spectrometer is fundamental to extend our research capabilities to new environmental contaminants and environmental exposure biomarkers, as well as consumption biomarkers of new illicit drugs and their metabolites. This instrument will fill an important gap in our capacity to link health/ecological risk to unknown chemicals and will allow interdisciplinary researchers to advance work in environmental toxicology, chemistry and forensics.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100055
Funder
Australian Research Council
Funding Amount
$290,000.00
Summary
A coupled liquid chromatography mass spectrometer as a core component of an Australian research facility for marine microbial biotoxins. A coupled liquid chromatography mass spectrometer as a core component of an Australian research facility for marine microbial biotoxins: This project will establish an Australian research facility for marine microbial biotoxins. The requested core instrument is a liquid chromatography mass spectrometer to analyse and quantify microbial toxins at ultra-trace qua ....A coupled liquid chromatography mass spectrometer as a core component of an Australian research facility for marine microbial biotoxins. A coupled liquid chromatography mass spectrometer as a core component of an Australian research facility for marine microbial biotoxins: This project will establish an Australian research facility for marine microbial biotoxins. The requested core instrument is a liquid chromatography mass spectrometer to analyse and quantify microbial toxins at ultra-trace quantities against complex sample backgrounds. Specialists in diverse areas of marine ecology and chemistry from three partner universities will team up to focus their research on novel biotoxins and marine natural products. This research is significant in developing a capability to swiftly respond to the emergence and outbreak of novel toxins. This facility will foster the collaboration with the partner organisation, the Cawthron Institute, a world leading research institute of marine biotoxins.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100141
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
High sensitivity and precision mass spectrometry for tracing Australia's ancient evolution and securing our future groundwater resources. High sensitivity and precision mass spectrometry for tracing Australia’s ancient evolution and securing our future groundwater resources: Micro-sampling thermal ionisation mass spectrometry (TIMS) provides the ability to undertake ultra low-level isotope analysis of earth and environmental samples. Analysis of radiogenic (for example, Neodymium, Strontium and ....High sensitivity and precision mass spectrometry for tracing Australia's ancient evolution and securing our future groundwater resources. High sensitivity and precision mass spectrometry for tracing Australia’s ancient evolution and securing our future groundwater resources: Micro-sampling thermal ionisation mass spectrometry (TIMS) provides the ability to undertake ultra low-level isotope analysis of earth and environmental samples. Analysis of radiogenic (for example, Neodymium, Strontium and Lead) and stable (for example, Boron) isotopes allows researchers to trace the evolution of the Australian continent from its beginnings in the Precambrian through to the impacts of climate change in the Quaternary period (the last 2.6 million years). The proposed micro-sampling TIMS facility will give researchers the opportunity to characterise mineral deposit formation, paleoclimate records and groundwater sources with new levels of accuracy and precision. This will help secure the economic and environmental future of Australia.Read moreRead less