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scattering (SAXS) tensor tomography Develop correlative multi-scale analysis pipelines integrating SAXS tensor tomography and high-resolution X-ray tomography, and complementary electron microscopy data (in
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Artificial enzymes or nanozymes Catalysis at biointerfaces or reactive nanomaterials Advanced materials characterisation techniques (e.g., electron microscopy, spectroscopy, surface analysis) You will be
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of immune cell niches. We welcome applications from recent PhD graduates who are interested in these or related fields, particularly those who may bring a new technology or perspective to bear on the work in
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fundamental principles of behavioural choice. The postholder will work closely with members of the Rezaval lab. They will support experimental work including behaviour, microscopy, molecular biology, and
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well as alongside two PhD students also funded to work on the project. The research will be supported by Monash’s world-class research infrastructure in electron microscopy. This includes the Monash Centre
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scientific discovery. The successful candidate is expected to: Design and develop optical sensing and imaging systems for biological experiments (e.g. microscopy, spectroscopy, fluorescence-based readouts
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will be characterized using structural techniques (XRD, BET), electron microscopy (TEM, SEM), UV-Vis absorption spectroscopy, and photo- and radio-luminescence. This thesis will be conducted in close
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microscopy, spatial transcriptomics and in vitro and in vivo models to study brain tumor cell-cell interactions and the organization of the cancer ecosystem. We strive for highly collaborative and inclusive
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Artificial enzymes or nanozymes Catalysis at biointerfaces or reactive nanomaterials Advanced materials characterisation techniques (e.g., electron microscopy, spectroscopy, surface analysis) You will be
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materials. The successful candidate will undertake experimental research involving nanofabrication, optical nanocavities, and advanced optical microscopy techniques to probe quantum and molecular systems