Innovative Technology for At-Scene Forensic Analysis using Microfluidics and Chemiluminescence. The major outcome of this project will be innovative reagents and strategies optimised for the detection of priority analytes such as drugs, explosives and chemical warfare agents. These will utilise a new technology platform based upon laboratory on a chip/microfluidics to enable the development of analytical methodologies suitable for use at crime scenes.This programme of research falls within a Nat ....Innovative Technology for At-Scene Forensic Analysis using Microfluidics and Chemiluminescence. The major outcome of this project will be innovative reagents and strategies optimised for the detection of priority analytes such as drugs, explosives and chemical warfare agents. These will utilise a new technology platform based upon laboratory on a chip/microfluidics to enable the development of analytical methodologies suitable for use at crime scenes.This programme of research falls within a National Research Priority namely 'Protecting Australia from terrorism and crime'. Through our current forensic science research collaboration the outcomes will build significantly on Australia's existing strengths in rapid detection using new analytical technologies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100213
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Advanced fluorescence characterisation facility. Fluorescence is the emission of light by a substance that has absorbed light of a different wavelength. Fluorescence techniques and fluorescent molecules have enabled a great many of the most important advances in biology, chemistry and medicine in recent decades. This facility will support a wide range of research projects using or exploring fluorescence and luminescence. The research supported will underpin advances in diverse scientific fields.
New strategies for highly sensitive chemical detection based on luminescent ruthenium and iridium complexes. Chemical reactions that emit tiny quantities of light, not even visible to the naked eye, can be used to detect the biomarkers of disease or traces of chemical or biological weapons in a terrorist attack. This project creates a new generation of reagents for this remarkably sensitive mode of detection for these and other important applications.
Simulation, Modelling, Prediction and Two-Dimensional Retention Database Development in Comprehensive Two-Dimensional Gas Chromatography (GC×GC). Quality of life is enhanced by the application of chromatography to many aspects of living. It is an existing technology made more powerful when used as comprehensive two-dimensional gas chromatography (GC×GC), an advanced form of GC. This project will apply new interpretation strategies to GC×GC to improve precise chemical analysis in many areas inclu ....Simulation, Modelling, Prediction and Two-Dimensional Retention Database Development in Comprehensive Two-Dimensional Gas Chromatography (GC×GC). Quality of life is enhanced by the application of chromatography to many aspects of living. It is an existing technology made more powerful when used as comprehensive two-dimensional gas chromatography (GC×GC), an advanced form of GC. This project will apply new interpretation strategies to GC×GC to improve precise chemical analysis in many areas including: measurement of 'good fats' in foods, sources of illicit drugs, allergens in perfumes, disease profiling through metabolite monitoring and the detection of performance enhancing drugs in sport. Based on this research, the science of chromatography will be advanced in Australia and throughout the world, using Australian technology and expertise.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100094
Funder
Australian Research Council
Funding Amount
$220,000.00
Summary
Macromolecular characterisation and purification facility. In-depth characterisation of (bio)macromolecules and nanomaterials is fundamental to understanding their properties and application to advanced materials and technologies. The three new instruments at this facility dedicated to the purification, separation and characterisation of these compounds will provide an essential resource for polymer/materials research.
Special Research Initiatives - Grant ID: SR180100005
Funder
Australian Research Council
Funding Amount
$1,225,000.00
Summary
Remediation of PFAS contaminated soil using soil washing and immobilisation. This project aims to assess the applicability of soil washing and immobilisation as cost-effective techniques for the remediation of per- and poly-fluroalkyl substance (PFAS) contaminated Australian soils. The project expects to establish the efficacy of the remediation of a range of PFASs, including many polyfluorinated precursors of perfluorinated, chemically-persistent legacy pollutants which are of concern. The proj ....Remediation of PFAS contaminated soil using soil washing and immobilisation. This project aims to assess the applicability of soil washing and immobilisation as cost-effective techniques for the remediation of per- and poly-fluroalkyl substance (PFAS) contaminated Australian soils. The project expects to establish the efficacy of the remediation of a range of PFASs, including many polyfluorinated precursors of perfluorinated, chemically-persistent legacy pollutants which are of concern. The project will provide a scientific basis for understanding the benefits and limitations associated with soil washing and immobilisation techniques and a more comprehensive understanding of future liabilities associated with formation of PFASs from precursors remaining in remediated soils. Collaboration with stakeholders will ensure benefits are captured both commercially and environmentally, as well as removing a potential and on-going health threat to communities exposed to these contaminants.Read moreRead less
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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100215
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Molecular spectroscopic 2D and 3D imaging systems at sub-micron spatial resolution. High-resolution chemical imaging systems are powerful tools for understanding the detailed make-up of a wide range of important high-tech materials. They allow researchers to map the distribution and form of separate chemical components, as well as the interactions between them. This information is critical for the design and formulation of the next generation of pharmaceuticals and drug delivery systems. It will ....Molecular spectroscopic 2D and 3D imaging systems at sub-micron spatial resolution. High-resolution chemical imaging systems are powerful tools for understanding the detailed make-up of a wide range of important high-tech materials. They allow researchers to map the distribution and form of separate chemical components, as well as the interactions between them. This information is critical for the design and formulation of the next generation of pharmaceuticals and drug delivery systems. It will allow the investigators to develop new biomedical materials for implants and prostheses, while new surface coatings will also improve the performance of aerospace structures. Novel sensors and process monitoring techniques will be used to develop new medical diagnostics and to control the quality of pharmaceuticals production.Read moreRead less
The rational development of improved pre-conditioning agents for the removal of oil contamination from wildlife and rocky foreshore. Wildlife and ecological resources such as Phillip Island's Little Penguin colony (with 500,000 visitors p.a.) and its environment are at the heart of Australia's ecotourism industry. If properly managed, such resources make significant contributions to the economy and can provide diverse employment opportunities for local communities. They also increase awareness o ....The rational development of improved pre-conditioning agents for the removal of oil contamination from wildlife and rocky foreshore. Wildlife and ecological resources such as Phillip Island's Little Penguin colony (with 500,000 visitors p.a.) and its environment are at the heart of Australia's ecotourism industry. If properly managed, such resources make significant contributions to the economy and can provide diverse employment opportunities for local communities. They also increase awareness of, and sensitivity to, environmental issues in general. Developing and implementing new and improved techniques for the rescue and rehabilitation of oiled wildlife and for the remediation of contaminated foreshore, apart from its inherent value, will contribute to the sustainability of such resources both at the national and international level. Read moreRead less
Marine oil seeps and airborne particulates characterisation for organic compositional fingerprinting by using novel gas chromatographic technologies. Comprehensive two-dimensional gas chromatography (GCxGC) is a powerful new tool for studying complex organic materials. The technique provides a highly sensitive method of fingerprinting not only the composition of the material but also its environmental history and behaviour. In this project the technique will be applied to a range of petroleum- ....Marine oil seeps and airborne particulates characterisation for organic compositional fingerprinting by using novel gas chromatographic technologies. Comprehensive two-dimensional gas chromatography (GCxGC) is a powerful new tool for studying complex organic materials. The technique provides a highly sensitive method of fingerprinting not only the composition of the material but also its environmental history and behaviour. In this project the technique will be applied to a range of petroleum-related organic samples, including oil seeps from the ocean floor, and airborne particulates contributing to air pollution. The research will lead to a better understanding of geochemistry of petroleum-related materials and their potential impact on the environment and on public health.Read moreRead less