402 evolution-"https:"-"https:"-"https:"-"https:"-"https:"-"Robert-Gordon-University" positions in Denmark
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this knowledge to suggest new ways to optimise catalytic reactions. Overall, you will contribute to the development of AI-enhanced autonomous workflows for interface. These implementations will be general and will
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ammonia quantification. Some specific tasks during the projects are: Benchmark the applicant/setup on Li-mediated ammonia synthesis in inert atmosphere Aluminium-mediated ammonia synthesis development
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inclusion – in recruitment, career development, and everyday interactions. An innovative and meaningful workplace where your work contributes to solving real-world challenges. No two days are alike, and we
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disciplines. A flexible working environment that supports work-life balance and individual needs. An active institutional commitment to diversity, equity, and inclusion – in recruitment, career development, and
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inclusion – in recruitment, career development, and everyday interactions. An innovative and meaningful workplace where your work contributes to solving real-world challenges. No two days are alike, and we
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management of Science Bridge’s budget and resources, as well as for monitoring, learning, and reporting on activities and outcomes. Contribute to the overall development of the Faculty of Natural Sciences and
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responsibilities As Professor of advanced arrhythmia management, you will have joint responsibility for the development of the department's research and teaching environment, and you will contribute
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, 2026, or soon hereafter. The position is a full-time position for 1 year. Your work tasks The research will focus on the development of digital twin models for heating networks, real-time simulation, and
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, this position offers a unique opportunity. You will work with real robots, real sensors, and real physical interaction problems, contributing directly to the development of autonomous mining systems capable
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nanoparticles for gas-phase catalysis. Development and application of ultrasensitive methods to probe gas–surface interactions by means of electron spectroscopy in the electron microscope. Operando studies