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Current reseach is in the areas of: Development of biomimetic structures as ultrasound contrast agents Deep tissue imaging using photoacoustic contrast agents All optical photoacoustic sensors
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Multiple PhD Scholarships available - Cutting-edge research at the frontiers of Whole Cell Modelling
of the Bacterial Cell Envelope – From Molecular Structure to Metabolic Function: The cell envelope is the interface between a bacterial cell and its environment. MACSYS is currently modelling the structure and
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North Queensland. Research projects are developed in collaboration between the successful applicant and their supervisor, and potential topics include: deep Earth structures, crustal mineralisation
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operation under reactive capture conditions. Unravelling reaction mechanisms and catalyst structure-performance relationships using advanced characterisation techniques and computational tools. Collaborating
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Professor Wensu Chen on his Australian Research Council Future Fellowship project regarding “Multi-hazard resilient hybrid modular structures” along with Professor Hong Hao. This project aims to develop multi
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the controls on the migration, accumulation and preservation of hydrogen in geological reservoirs. PhD Project 3: Structural and geomechanical characterisation of natural hydrogen systems This project will
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outcomes of this project include innovative methods for robot learning to improve shared movement quality. The PhD candidate will research movement and choreographic structures applied to human-robot
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Lipid nanoparticles are critical delivery systems for a wide range of biomedical applications. This project will involve studying the structural properties of lipid nanoparticles, modifying particle
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biomineralization plays a critical role in biogeochemical cycling as well as has important environmental applications especially in the area of sustainable construction materials. But much of our knowledge in
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overcoming the limitations of existing nanomaterials—such as poor nanochannel structure, low chemical stability, and high internal resistance—this project introduces an innovative platform for efficient ion