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
Towards Microfluidic-Based Advanced Remote Analysis. The research under this project will establish and systematically develop Advanced Remote Analysis as a new inter-disciplinary area and establish a leadership role for Australia. By addressing pressing needs such as monitoring the environment, remote medical diagnostics, advancing Australian science and technology, or monitoring for traces of explosives, this project falls directly into all four of the National Research Priorities with applica ....Towards Microfluidic-Based Advanced Remote Analysis. The research under this project will establish and systematically develop Advanced Remote Analysis as a new inter-disciplinary area and establish a leadership role for Australia. By addressing pressing needs such as monitoring the environment, remote medical diagnostics, advancing Australian science and technology, or monitoring for traces of explosives, this project falls directly into all four of the National Research Priorities with applications addressing corresponding Priority Goals. Other areas benefiting from the outcomes of this project will be remote monitoring of agricultural production including living species, and a number of other industries such as biotechnology, mineral processing, power generation etc.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346903
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
LC-MS system for Faculty of Sciences, U.N.E. LC-MS is a technique for investigating the composition of complex mixtures and identifying its components. This instrumentation will be utilised at UNE in a diverse range of analytical investigations to further the research aims of scientists in chemistry, biological sciences, archaeology, physics, environmental sciences, marine science as well as biological researchers in specialised units based at UNE. The extraordinarily versatile capacity of this ....LC-MS system for Faculty of Sciences, U.N.E. LC-MS is a technique for investigating the composition of complex mixtures and identifying its components. This instrumentation will be utilised at UNE in a diverse range of analytical investigations to further the research aims of scientists in chemistry, biological sciences, archaeology, physics, environmental sciences, marine science as well as biological researchers in specialised units based at UNE. The extraordinarily versatile capacity of this technique for analysis and identification of organic substances, from small molecules through to large proteins and complex plant and animal metabolites, will provide impetus for existing research and stimulus for new research directions.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.
Development of a Novel Photoelectrochemical Method for Ultra-sensitive and Selective Determination of Organic Pollutants. Rapidly deteriorating environmental conditions have caused worldwide fresh water shortage problems. For Australia, this is an urgent issue due to our limited fresh water resources. Globally, all levels of governments and legislative authorities have attempted to adopt stricter environmental legislation and better water resource management practice to address these urgent prob ....Development of a Novel Photoelectrochemical Method for Ultra-sensitive and Selective Determination of Organic Pollutants. Rapidly deteriorating environmental conditions have caused worldwide fresh water shortage problems. For Australia, this is an urgent issue due to our limited fresh water resources. Globally, all levels of governments and legislative authorities have attempted to adopt stricter environmental legislation and better water resource management practice to address these urgent problems. However, these priorities cannot be achieved until large scale and accurate environmental data are available. The success of the project would result in a new environmental monitoring system capable of online, real-time monitoring of environmental water quality, which will directly benefit water resource management practice in Australia. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775773
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Integrated electrochemical facility. The proposed facility will significantly enhance the capabilities of the collaborating Universities, provide excellent framework to support both fundamental and applied research, promote research activities to form commercial linkages and partnership with national/international players in a wide range of disciplines. It will bring direct benefit to many organizations through providing services for scientific development, create graduates of high quality, incr ....Integrated electrochemical facility. The proposed facility will significantly enhance the capabilities of the collaborating Universities, provide excellent framework to support both fundamental and applied research, promote research activities to form commercial linkages and partnership with national/international players in a wide range of disciplines. It will bring direct benefit to many organizations through providing services for scientific development, create graduates of high quality, increased capacity for contract research and direct application of research results. The project falls within the state government's key targets of 10 Years Vision for science, technology and innovation (STI 10) towards the formation of highly equipped research precincts.
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Detection of peptide hormone performance enhancing agents in sport using mass spectrometry. Doping control in sport is to protect the health, legal and ethical rights of athletes. The use of banned drugs in competitive sports is becoming increasingly sophisticated and the need to counter this provides a stimulus for ground breaking analytical research. This project will exploit mass spectrometry for investigation of methods to distinguish administered peptide hormones from endogenous material a ....Detection of peptide hormone performance enhancing agents in sport using mass spectrometry. Doping control in sport is to protect the health, legal and ethical rights of athletes. The use of banned drugs in competitive sports is becoming increasingly sophisticated and the need to counter this provides a stimulus for ground breaking analytical research. This project will exploit mass spectrometry for investigation of methods to distinguish administered peptide hormones from endogenous material and to develop assays for measurement of the peptide hormones, erythropoietin, growth hormone and chorionic gonadotrophin in blood or urine. The outcomes will flow to other areas where trace substance detection is important, such as environmental chemistry, medicine and quality control.Read moreRead less
Targeting organically-complexed iron species in seawater using selective solid-phase adsorbent resins. Iron limits primary productivity in 40% of the oceans. Its accurate determination is thus critical to understanding the functioning of marine ecosystems and their role in moderating Earth's climate. Recent findings indicate that serious discrepancies exist in iron concentrations obtained using different analytical methods. These discrepancies are believed to be due to the lability of organic ....Targeting organically-complexed iron species in seawater using selective solid-phase adsorbent resins. Iron limits primary productivity in 40% of the oceans. Its accurate determination is thus critical to understanding the functioning of marine ecosystems and their role in moderating Earth's climate. Recent findings indicate that serious discrepancies exist in iron concentrations obtained using different analytical methods. These discrepancies are believed to be due to the lability of organic and colloidal iron species to extraction by adsorbent preconcentration resins. This project will design and synthesise a range of functionalised resins for the selective extraction of iron species from seawater, advancing our knowledge of its bioavailability and leading to the generation of class-specific analytical methodologies.Read moreRead less
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.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668536
Funder
Australian Research Council
Funding Amount
$485,000.00
Summary
Western Australian Facility for High Throughput Biological and Organic Gas Chromatography-Mass Spectrometry. Disciplines such as pharmaceuticals, plant protection, mineral extraction, and conservation all need to separate, identify and quantify molecules. The method of choice for small molecules (< 500 amu) is gas chromatography and mass spectrometry (GC-MS). A broad range of laboratories in WA are using GC-MS, but the equipment is fully utilised, outdated and limiting progress. This applicatio ....Western Australian Facility for High Throughput Biological and Organic Gas Chromatography-Mass Spectrometry. Disciplines such as pharmaceuticals, plant protection, mineral extraction, and conservation all need to separate, identify and quantify molecules. The method of choice for small molecules (< 500 amu) is gas chromatography and mass spectrometry (GC-MS). A broad range of laboratories in WA are using GC-MS, but the equipment is fully utilised, outdated and limiting progress. This application seeks to purchase research grade GC-MS equipment with order-of-magnitude improvements in mass range, sample throughput, discrimination and data handling capacities. This equipment will transform capabilities and will enhance projects supporting the minerals and agricultural industries and enhance biodiversity conservation efforts.Read moreRead less