Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100140
Funder
Australian Research Council
Funding Amount
$275,000.00
Summary
Quarantined ion chromatography mass spectrometry (IC-MS) facility. This proposal seeks to establish a quarantined facility for 'ion chromatography-mass spectrometry', to provide high resolution ion chromatographic and mass spectrometric analytical capability to the environmental, analytical/bioanalyical, and industrial science research communities. The state-of-the-art facility will represent the only quarantined high-resolution IC-MS facility within Australia, and therefore not only support the ....Quarantined ion chromatography mass spectrometry (IC-MS) facility. This proposal seeks to establish a quarantined facility for 'ion chromatography-mass spectrometry', to provide high resolution ion chromatographic and mass spectrometric analytical capability to the environmental, analytical/bioanalyical, and industrial science research communities. The state-of-the-art facility will represent the only quarantined high-resolution IC-MS facility within Australia, and therefore not only support the above communities within Australia, but the potential to facilitate research collaboration internationally, including supporting Australia's leading Antarctic Science programs. Read moreRead less
Portable and field-deployable analytical platforms for water monitoring. This project sets out to tackle one of the costliest and most challenging environmental problems, namely, nutrient pollution in water systems. At present, nutrient pollutant monitoring is predominantly carried out using an antiquated manual approach with numerous shortcomings, inadequate to achieve truly effective water quality management. The in-situ analyser developed and deployed within this project will provide continuo ....Portable and field-deployable analytical platforms for water monitoring. This project sets out to tackle one of the costliest and most challenging environmental problems, namely, nutrient pollution in water systems. At present, nutrient pollutant monitoring is predominantly carried out using an antiquated manual approach with numerous shortcomings, inadequate to achieve truly effective water quality management. The in-situ analyser developed and deployed within this project will provide continuous real-time observations and will allow users to remotely monitor water quality; alerting them to pollutant levels, enabling immediate action to be taken to prevent environmental damage. The system is low-cost, facilitating mass adoption, yet delivers an analytical performance comparable to leading laboratory analysers. Read moreRead less
Disinfection by-products formed during drinking water treatment: reducing the unknowns is managing risk. Disinfection of drinking water is a successful measure to reduce water-borne diseases and protect health. However, epidemiological evidence links bladder cancer to disinfection by-products formed during drinking water treatment. Despite decades of research the causative agents remain to be identified. To fill this knowledge gap, this project will quantify the fraction of toxicity that cannot ....Disinfection by-products formed during drinking water treatment: reducing the unknowns is managing risk. Disinfection of drinking water is a successful measure to reduce water-borne diseases and protect health. However, epidemiological evidence links bladder cancer to disinfection by-products formed during drinking water treatment. Despite decades of research the causative agents remain to be identified. To fill this knowledge gap, this project will quantify the fraction of toxicity that cannot be explained by known chemicals in water samples treated with different disinfectants using a combination of chemical analysis and in-vitro bioassays. Samples with high unexplained effects will then be fractionated to isolate toxicologically relevant disinfection by-products, which will ultimately be identified with non-target chemical analysis.Read moreRead less