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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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channels coated with layers of endothelial cells to mimic vascular systems. The soft structure of the system allows for stretching of endothelial cells in repeated cycles. The cellular responses under
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of the Forrest Research Foundation is to create a world-leading collaborative centre of research and scholarship in Western Australia. The Foundation supports over 60 PhD scholars and postdoctoral fellows and
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will generate new knowledge in the area of IoT Trust by developing novel techniques to establish trust in highly dynamic crowdsourcing IoT environments. The project's main outcomes include
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to building structure-activity relationships (SARs) based around targeted modifications of their patented gold-based drug candidate using innovative in vitro protocols to refine lead drug candidate(s). This
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that required regular interactions with general practices and/or local hospitals. Demonstrated experience interacting with clinicians, health service managers and consumer representatives to implement research
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include: REZ Long-Term Benefits: How can First Nations communities keep benefiting from Renewable Energy Zones after construction is completed? Rooftop Solar Challenges: What are the issues with installing
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data in a healthcare setting or medical education Demonstrated experience interacting with clinicians, healthcare providers and/or healthcare consumers for the purposes of delivering research studies
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understanding of gene presence/absence, structural variations, and evolutionary dynamics. In this project we will aim to develop novel dynamic programming computational methods for pangenome assembly of diploid
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redox, dissolved gases, noble gases, and isotopes, will be coupled with water–rock interaction experiments. Laboratory tests will investigate the effects of temperature, salinity, and mineralogy on gas