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Field
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proven experience in data analysis of tree and stand data, described in scientific publications and/or thesis. Extra merits are previous experience in design of forest experiments for regeneration or stand
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of time-resolved electrochemistry. Your main work tasks will be to: Interact with and support user groups at the HIPPIE beamline (including on-call work) Collaborate with users wishing to use
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, spectroscopy, and biomedical validation in clinically relevant environments. Key work assignments include: Design, fabrication, and optimization of high-performance plasmonic nanostructures and SERS substrates
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robotic systems that are characterized by advanced autonomy for improving the ability of robots to interact with the surrounding environment and humans during the execution of specific tasks. Project
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robotic systems that are characterized by advanced autonomy for improving the ability of robots to interact with the surrounding environment and humans during the execution of specific tasks. Project
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by advanced autonomy for improving the ability of robots to interact with the surrounding environment and humans during the execution of specific tasks. Project description The vision of RAI is aiming
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on artificial molecular networks (neighbour-neighbour interaction matrices) created experimentally in the sample. This is essentially about turning the sequencer into a microscope that uses DNA sequence, not
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an exceptional opportunity to combine experimental animal welfare research, field-based living lab development, behavioural and physiological data collection, and stakeholder-driven innovation. It also offers
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and designed proteins using a combination of classical and advanced techniques including optical and NMR spectroscopy, surface plasmon resonance, light and X-ray scattering, cryo-electron and
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group at KTH and the algebra, geometry and topology group at Stockholm University. The successful candidate is expected to interact with these groups, contribute to a vivid research atmosphere and