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to train new researchers in critical areas and facilitate long-term beneficial interaction between universities, CSIRO, and industry. It is a part of an Australian Government initiative to better translate
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barrier—is disrupted in these conditions, how such dysfunction impairs drug delivery, and whether restoring vascular integrity can improve outcomes. This research is part of an NHMRC-funded Investigator
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Status: Closed Applications open: 15/05/2025 Applications close: 31/05/2025 View printable version [.pdf] About this scholarship Description/Applicant information This scholarship is funded as part
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for understanding questions in geometry and physics. This scholarship is part of an Australian Research Council Discovery Project that aims to develop techniques for the design and analysis of highly nonlinear
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of Lithium Iron Phosphate Batteries - These projects aim to establish effective and sustainable approaches for the direct regeneration and component-level recovery of spent LFP batteries, focusing
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of Philosophy , including any English language requirements. Enrol as a full-time, internal student (unless approval for part-time and/or external study is obtained). You must commence your degree between July
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component provided by the industry partner a professional development training program. A tuition fee scholarship for four years. Scholarships also include up to $1,500 relocation allowance. Supervisor: Prof
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. Eligibility You need to meet the entry requirements for a QUT Doctor of Philosophy including any English language requirements. Enrol as a full‑time, internal student (unless approval for part-time and/or
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Using finite element modelling (FEM) to simulate different hole configurations and validating these models with cadaveric femur specimens, this study will provide crucial insights to optimise
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, and across all supporting relationships. The successful candidate will be part of the vibrant research community at the Appleton Institute, with access to strong academic mentorship, peer support