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, laboratory analysis, device optimisation, and techno-economic evaluation, contributing to publications, funding proposals, and real-world implementation pathways. You may also contribute to limited
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experience in mammalian cell culture, organoid culture and analysis, and stem cell biology. Strong skills in molecular biology, next-generation sequencing, bioinformatics, general microscopy and confocal
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, Lawrence Livermore National Laboratory, University of Virginia, University of Connecticut. They will be required to perform computational and theoretical analysis using a range of techniques, as
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to the design, analysis, optimisation, control, and full-scale testing of advanced wind turbine systems. Depending on your expertise, you will play a key role in either blade design, structural dynamics
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initiative developing the next generation of smart wind turbine blades. As part of the Australian Economic Accelerator Innovate project, this role will see you contribute to the design, analysis, optimisation
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computational and theoretical analysis using a range of techniques, as well as collaborating with the other members of the wider project team. To be successful in this position, you will have: PhD qualification