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This scholarship aims to develop a spinal implant-on-a-chip platform to study the mechanobiological effects of wear particles on healthy IVD cells. The project involves generating clinically
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the next frontier of photonic quantum technologies. About the Project: Making Strongly Interacting Photons investigates a remarkable class of particles called polaritons — hybrids of light and matter
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Optimizing a 3D microfluidic IVD model to study cell responses to wear particles, refining culture conditions, and analysing cytotoxic and inflammatory mechanisms. Optimizing a 3D microfluidic IVD
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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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the next frontier of photonic quantum technologies. About the Project: Making Strongly Interacting Photons investigates a remarkable class of particles called polaritons — hybrids of light and matter
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the National Institutes of Health (NIH). It will employ cutting-edge computational approaches using Australian and American supercomputers, alongside single-particle cryo-electron microscopy and functional
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analysis, particle analysis, electron microscopy, and synchrotron technology. The candidate should have experience in one or more of the following research areas: Mineral Processing, Chemistry, Chemical
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mechanisms involved in the leaching of copper concentrate by glycine solutions. • Optimize process parameters such as temperature, pH, glycine concentration, and particle size to maximize copper
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materials, formulations and procedures to create particles, for outputs aligned with both academic advancement and industry partners. Materials will be evaluated for size, morphology and structure-function
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I am an experimental particle physicist and I specialise in the study of particles containing the beauty and charm quarks. My research aims to help improve our understanding our universe by