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and Community Trust for a Just and Effective Net Zero Transition , a two-year, multi-region, mixed-method study focused on the role of trust in Australia's decarbonisation efforts. The project
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, with a specific focus on complex biological systems. The project aims to apply highly controlled optical trapping techniques to investigate cell–fluid interactions during macropinocytosis (“cell drinking
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), clinical trials, disease surveillance, and the use of novel methods including Bayesian network, machine learning, social network analysis and dynamic data visualisation tools. Further information is
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facilities and industry networking opportunities. Key responsibilities will include: Coordinate data collection and analysis, preparation of graphs, figures, and manuscripts for conference presentations and
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research outcomes of NQCT, contributing superconducting quantum computing expertise to the design, implementation, evaluation and modification of research methodologies and/or protocols. Perform complex
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/finish times, and genuine career progression opportunities via the academic promotions process. About You You’re a motivated independent problem solver with initiative and the ability to forge networks
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You A PhD in the field of polymer chemistry/physics. Experience in preparation of complex polymeric structures using modern synthetic methods. Expertise in polymer characterisation including high
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the design of complex research experiments, under supervision of senior staff. Set up equipment and perform non-routine experiments/techniques requiring advanced knowledge/skills. Assist scientific method
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on high temperature metallurgical systems including complex phase equilibria and heterogeneous kinetics and apply and further develop microanalysis methods for slags, matte, metals and other phases occurring in
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challenges the world faces today are complex and immense in terms of their scale of impact, but they are not insurmountable. To discover, develop and deliver novel solutions to these challenges, a synergistic