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of coarse mineral particles. In this role you will focus on investigating new physics and chemistry of bubble-particle interactions that underpin coarse particle flotation, based on the properties, structures
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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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For Prospective University Students Register a scholarship Sign up Login Login Username(Required) Password(Required) Remember Me Register Forgot Password? Close Indigenous Pathways Portal Filter Select filters
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of the University's information assets and critical systems. You will play a vital role in the configuration, deployment, and maintenance of security platforms such as advanced email filtering, firewalls, intrusion
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training and knowledge mobilization activities in the social sciences and humanities. SSHRC recommends clearing your browser cache to ensure the most up-to-date funding opportunities are consulted. Filter
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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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replacement (TDR). Traditionally, this issue has been attributed to mechanical load alterations post-implantation. However, emerging evidence suggests that wear particles from spinal implants may also
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total disc replacement (TDR). Traditionally, this issue has been attributed to mechanical load alterations post-implantation. However, emerging evidence suggests that wear particles from spinal implants
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perfluoroalkyl substances (PFAS) to fluoride via highly reducing species. The research will optimise light-activated colloidal particles to produce various highly reducing species, while also assessing
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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