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and control system for real-time control and operation at autonomy level 3 as defined by the International Maritime Organization (IMO 1). The control system to be developed will almost completely avoid
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. The successful candidate will contribute to research on i) the genomic and molecular basis of brain aging, ii) the evolutionary processes underlying differences in brain aging rates, and iii) the identification
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mindset and passion for scientific research Good command of written and spoken English (German proficiency is not required) LanguagesENGLISHLevelExcellent Research FieldChemistry » Heterogeneous
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. The successful candidate will contribute to research on: i) the genomic and molecular basis of brain aging ii) the evolutionary processes underlying differences in brain aging rates, and iii) the identification
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engineer or computer scientist to establish a robotic platform for autonomous experimentation in organoid culturing. You will work with life scientists to design, integrate, and establish the platform’s
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systemic infectious processes, immune responses, and evaluating therapies, refinement measures to reduce stress and improve welfare in experimental animals are underexplored. In this 3RTG, we will address
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Alfred-Wegener-Institut Helmholtz-Zentrum für Polar- und Meeresforschung | Oldenburg Oldenburg, Niedersachsen | Germany | about 1 month ago
the molecular processes governing the establishment, maintenance, and breakdown of photosymbiosis in cnidarian hosts. You will generate and analyze high-resolution transcriptomic data to compare host cells and
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our European Research Council (ERC)-funded project WarmBodies. This exciting project aims to understand the link between the neuronal circuits controlling our core body temperature and those involved in
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knowledge and experience of quantitative or qualitative research methods • excellent command of spoken and written scientific communication in German and English • motivation for scientific qualification
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at understanding and controlling electrochemical interfaces and at creating functional, ion-conductive surface layers that deliver stable performance, long cycle life, and high efficiency under realistic operating