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This project will apply quantum chemistry and molecular dynamics simulations to the study of Hofmeister and specific ion effects in complex electrolytes, including non-aqueous solvents, deep
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on several key research challenges in devising this platform, including mechanical design and advanced control of the 3D-printing system, electrohydrodynamic analysis and experimental testing. The printed
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methodologies to optimise training effectiveness and system capabilities in simulated environments. The University of Newcastle, in partnership with Applied Virtual Simulation (AVS), is offering a PhD opportunity
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representative sample of participants/carers, to assess acceptability, feasibility and potential benefits of MNT to the system/patients PhD Scholarship details Funding: $45,000 per annum for 3 years, then the