New laser and mass spectrometry methods for detecting protonation isomers. Mass spectrometry is a major tool for the detection of molecules for understanding disease, pollution control and chemical synthesis. However, intricate differences in molecular structure - vital to chemical function - can confuse detection methods leading to false negatives. This is especially problematic for complex biological samples. Recent breakthroughs in laser-based mass spectrometry methods, combined with ion mobi ....New laser and mass spectrometry methods for detecting protonation isomers. Mass spectrometry is a major tool for the detection of molecules for understanding disease, pollution control and chemical synthesis. However, intricate differences in molecular structure - vital to chemical function - can confuse detection methods leading to false negatives. This is especially problematic for complex biological samples. Recent breakthroughs in laser-based mass spectrometry methods, combined with ion mobility, now allow detection of subtle yet important structural features. This project aims to exploit these advances by developing new instrumentation and protocols with these enhanced capabilities thus accelerating advances in automated mass spectrometry, improved antibiotic detection and complex biomolecule screening.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100060
Funder
Australian Research Council
Funding Amount
$563,390.00
Summary
Shared picosecond-laser facility. This project aims to extend the Shared Picosecond Laser Facility to include picosecond-pulse technology and to incorporate new consortium members. The Facility, shared among members at four universities and building on over 23 years of collaboration, continues to provide access to state-of-the-art lasers. The Facility will take advantage of its bulk purchasing power to negotiate significant discounts, extended warranties and maintenance contracts. The new lasers ....Shared picosecond-laser facility. This project aims to extend the Shared Picosecond Laser Facility to include picosecond-pulse technology and to incorporate new consortium members. The Facility, shared among members at four universities and building on over 23 years of collaboration, continues to provide access to state-of-the-art lasers. The Facility will take advantage of its bulk purchasing power to negotiate significant discounts, extended warranties and maintenance contracts. The new lasers will enable access to picosecond timescales and facilitate complex multi-laser experiments in a wide variety of projects including reaction dynamics, materials chemistry and photovoltaics.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100549
Funder
Australian Research Council
Funding Amount
$384,616.00
Summary
The true impact of fluorinated compounds in the atmosphere. This project aims to improve the underpinning science that is incorporated into atmospheric chemistry models so humanity can better understand, predict and respond to the impact of emitting large volumes of fluorinated compounds. This project expects to challenge assumptions currently used to model the atmospheric chemistry of organic fluorine compounds, as well as to evaluate the environmental impact of replacements. Expected outcomes ....The true impact of fluorinated compounds in the atmosphere. This project aims to improve the underpinning science that is incorporated into atmospheric chemistry models so humanity can better understand, predict and respond to the impact of emitting large volumes of fluorinated compounds. This project expects to challenge assumptions currently used to model the atmospheric chemistry of organic fluorine compounds, as well as to evaluate the environmental impact of replacements. Expected outcomes include a general model of organic fluorine photochemistry and refined atmospheric chemistry models. This should provide significant benefits in that humanity can avoid an environmental disaster and new, environmentally benign products can be developed.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100112
Funder
Australian Research Council
Funding Amount
$275,000.00
Summary
A Raman facility for advanced research supporting Australia’s natural gas, oil, coal and minerals industries. This modern Raman Spectroscopy facility will support the science and engineering that underpins the production and processing of Australia’s natural resources. Using high-pressure fibre optics, novel lasers and advanced imaging, the facility will enable the monitoring and improvement of processes and materials under extreme conditions.