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. Fixed term, full time position available for 2 years with a possibility of extension. About the project: We are seeking a highly motivated Structural Biologist to lead projects aiming to understand
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to estimate their age, but if resorption occurs, it would lead to underestimation and inadequate conservation efforts. Additionally, investigating the role of mononuclear clastic cells in resorption during
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, there is an urgent demand for accurate data on ion-beam collisions with atomic and molecular targets for the development and maintenance of fusion reactors, treatment planning in hadron therapy, and
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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 up to three years. Exceptional progress and adherence to timelines may qualify students for a six-month completion scholarship. Selection for these scholarships involves a competitive process, with
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to investigate how employing visual, acoustic, and tactile stimulation on simple behavioural tasks could lead to improvements in cognitive functions such as working memory and selective attention, as well as brain
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scholarship. Selection for these scholarships involves a competitive process, with shortlisted applicants notified of outcomes by November 2024. Scholarship Details Maximum number awarded 1 Eligible courses All
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provides a living stipend of AU$37,500 per annum, indexed annually. International students will receive a tuition fee offset. Additional support for conference attendance and publication costs is included as
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chemistry. Application process Please send your CV, academic transcripts and brief rationale why you want to join this research project via the HDR Expression of interest form to the project lead researcher
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an innovative and environmentally sustainable process of copper extraction from concentrates leaching using different glycine leaching systems. The expected outcomes from this project are not limited