52 image-processing-postdoc Fellowship positions at The University of Queensland in Australia
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to establish The National Quantum Computing Testbed Facility (NQCT). The goal of NQCT is to develop the first Australian open-access quantum computer with direct access to quantum and control hardware. NQCT
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to the safe and efficient operation of research equipment, infrastructure, methodologies and protocols Contribute to the upkeep of the project website and ensure safe handling and disposal of research materials
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achieve recognition and impact in the research area. Designs PCBs and develops FPGA code as a core aspect of the design process. Develop image signal processing systems and sensor motion control
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expertise in digital imaging technologies and data-driven research solutions. Apply for and manage competitive research funding, including joint projects with colleagues. Supervise and mentor Honours and
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Bioinformatics. The role focuses on exploring brain development and function from developmental and comparative perspectives, integrating molecular biology, advanced imaging, and genomics/transcriptomics
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lining the gut and lungs works to sense and trigger immune cells to drive effector and repair functions. Characterisation experiments will include ELISA, PCR, multicolour flow cytometry, imaging, cutting
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) to create functional materials like block and grafted copolymers. These materials will be fully characterised using advanced techniques, and processes will be developed for in-situ production of PHA-based
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genuine career progression opportunities via the academic promotions process. About You Completion or near completion of a PhD in polymer science or engineering, preferably with a focus on surface
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leave loading, flexible working arrangements including hybrid on site/WFH options and flexible start/finish times, and genuine career progression opportunities via the academic promotions process. About
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films in organic light-emitting diodes (OLEDs) using X-ray techniques (including diffraction, scattering, spectroscopy and imaging) and electron microscopy. The OLEDs will feature emissive layers with