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
Deep ocean thermodynamics and climate change. This project aims to obtain new insights into the thermodynamic and transport properties of mixtures containing water, particularly at high pressures, that impact directly on our understanding of climate change processes. The project will involve the use of a polarisable potential for water which has recently been demonstrated to yield predictions of high accuracy. It will be used to model saline water mixtures containing carbon dioxide, resulting in ....Deep ocean thermodynamics and climate change. This project aims to obtain new insights into the thermodynamic and transport properties of mixtures containing water, particularly at high pressures, that impact directly on our understanding of climate change processes. The project will involve the use of a polarisable potential for water which has recently been demonstrated to yield predictions of high accuracy. It will be used to model saline water mixtures containing carbon dioxide, resulting in valuable data for thermodynamic properties of the world's oceans. These data are of crucial importance for accurate climate change predictions and as such the project will have an important impact on understanding our changing environment.Read moreRead less