Discovery Early Career Researcher Award - Grant ID: DE130101441
Funder
Australian Research Council
Funding Amount
$365,219.00
Summary
Thinking outside the box: spherical geometry in chemistry and physics. Spherical models are extremely powerful for understanding, explaining and predicting physical and chemical phenomena. This work takes advantage of the spherical model superiority to tackle some fundamental unsolved problems in physics and chemistry, and this will lead to new insights in their field.
Discovery Early Career Researcher Award - Grant ID: DE170101024
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
How antimatter and matter solvates in liquids. This project aims to improve solvation in transport calculations and polar liquids. Solvation, the process of a particle becoming trapped in a liquid, is important in Positron Emission Tomography medical imaging. However, this application can only be described through particle transport simulation, which cannot address solvation. Modelling the dynamical solvation process of the electron and the positron, its antimatter counterpart, is expected to en ....How antimatter and matter solvates in liquids. This project aims to improve solvation in transport calculations and polar liquids. Solvation, the process of a particle becoming trapped in a liquid, is important in Positron Emission Tomography medical imaging. However, this application can only be described through particle transport simulation, which cannot address solvation. Modelling the dynamical solvation process of the electron and the positron, its antimatter counterpart, is expected to enable accurate simulation of medical imaging, acquiring the greatest amount of information for the smallest dosage of radiation to the patient allowing for lower patient radiation doses and more informative scans.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100098
Funder
Australian Research Council
Funding Amount
$403,536.00
Summary
Can positronium fragment complex molecules? This project aims to explore whether positronium, which is produced in the body during positron emission tomography (PET), can damage DNA. PET scans are used to locate cancer. Positrons produce positronium, a matter-antimatter bound state, in the body during a PET scan. It is known that electrons can damage DNA by forming a transient negative ion that fragments DNA building blocks and it is suggested that positronium could damage DNA in the same way. T ....Can positronium fragment complex molecules? This project aims to explore whether positronium, which is produced in the body during positron emission tomography (PET), can damage DNA. PET scans are used to locate cancer. Positrons produce positronium, a matter-antimatter bound state, in the body during a PET scan. It is known that electrons can damage DNA by forming a transient negative ion that fragments DNA building blocks and it is suggested that positronium could damage DNA in the same way. This work will explore fragmentation of DNA nucleobases by positronium impact. The results of this work may contribute to new models of PET use.Read moreRead less