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to predict residual strength and estimate fatigue life of composite structures under monotonic and cyclic loading conditions. The modelling and optimisation tools will then be used in developing high strength
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This PhD scholarship is for motivated researchers interested in developing advanced catalysts for ammonia synthesis and combustion, contributing to sustainable hydrogen storage and clean energy
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biochemistry, material science, and nanotechnology to develop particulate complexes that maintain protein/enzyme functionality under diverse (e.g., heat stress) conditions. The project will investigate novel
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or knock out their cancer. One key goal of these trials is to identify the key functional targets for the immune response and leverage this to initiate development of personalised cancer vaccines. As part of
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The aims of the research are to develop efficient and accurate computational and experimental methodologies for characterising hybrid, multifunctional 3D printed fibre-polymer composites and explore
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The scholarship provides a minimum stipend of $34,481 each year for three years to perform experimental investigations and developing mathematical models to valorize waste and produce carbon nano
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The scholarship will be suited to a materials/polymer scientist and/or chemical engineering student willing to develop skills in polymer chemistry and materials upcycling. The scholarship will be
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PhD Scholarship in ‘Using nanoparticles to enhance the immune response and improve vaccine efficacy’
composition of the nanoparticle. We will be able to develop vaccines that effectively prevent an treat severe diseases for which currently there are no effective vaccines. Methods: Our laboratory uses new and
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This project will explore the use of integrated photonic chip technology to realise all of the components of an atomic clock on a single chip. It will be conducted within the context of the internationally recognised Integrated Photonics and Applications Centre working with a team of more than...
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of surfaces has profound effects on morphology and composition as established by supervisor teams. When ultra-short laser pulses are used, highly energetic electrons leave the laser exposed region with ions