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Standard RMIT PhD enrolment requirement . View Standard RMIT PhD enrolment requirement . Please send CV, cover letter, and academic transcript to Dr Keng-Te Lin ([email protected] ). Please send CV
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The PhD scholarship is available to undertake computational modelling of complex nano-biomaterial interfaces. These predictive models will fast track the development of efficient technologies
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of nano-“killer” objects needs a further refinement. Magnetic field applied during laser ablation for nanoparticle generation or nanotexturing of surfaces has profound effects on morphology and It was
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nutritional characteristics and techno-functional properties for food and non-food applications. Food biopolymers will be altered at both micro- as well as nano-scales, and innovative functions will be created
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through nano-indentation in situ micro-mechanical testing. The aim of this project is to manufacture novel materials with high strength and radiation tolerance using SPD techniques, characterize them with
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create new knowledge on how humoral (antibody-mediated) immunity affects nanomaterials using cutting-edge immunoassays, bio–nano characterisation techniques, and bioinformatics. Expected outcomes
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while understanding nano-biomolecular interactions. This PhD scholarship is attached to an Australian Research Council (ARC) Discovery project. The project will develop a robust nanosensor technology for
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PhD Scholarship in Integrated Photonics for Telecommunication, Biosensing and Precision Measurements
Centre (InPAC) at RMIT University aims to create the next generation of integrated photonic circuits with unprecedented efficiency and innovative monitoring and control techniques. We are offering several
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characterisation of nanomaterials, nano-bio interactions and immunology. The PhD candidate will further participate in established collaborations with other leading nanotechnology laboratories across multiple
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nutritional characteristics and techno-functional properties for food and non-food applications. Food biopolymers will be altered at both micro- as well as nano-scales, and innovative functions will be created