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proteomics approaches are also encouraged to apply. Your profile Applicants should hold a PhD in proteomics, molecular biology, biochemistry, or a related field. We are particularly interested in candidates
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establishing best-practice workflows with other scientists in the team publishing and presenting results at international meetings Your profile: We seek candidates with: a relevant PhD degree in experimental
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The Department of Ecoscience at Aarhus University invites applications for two postdoctoral positions to strengthen our research on image recognition, computer vision and deep learning applied
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microscopy, optical interferometry, vacuum technology, finite element method simulations will be involved. Applicants should hold a PhD in Physics, Nano-science, Engineering or similar, experience with optics
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work on cryo-electron tomography studies of regulatory synapses at the axon initial segment of neurons. Expected start date and duration of employment The starting date is 1st September 2026, or as soon
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certificates and diplomas (BSc, MSc, and PhD degrees) The names and complete contact details (including phone numbers and email addresses) of at least two references A complete list of publications indicating
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Postdoctoral Positions in PFAS Analytics, Degradation, and Thermophysical Properties - DTU Chemistry
of complex mixtures, including experimental measurement techniques and/or computational methods. As a formal qualification, you must hold a PhD degree (or equivalent) in chemistry, chemical engineering
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(2023)). Work at these facilities will be combined with research in our state of the art femtosecond laser labs. Your profile Applicants should hold a PhD in Physics or Chemistry or related field
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to interact and collaborate to develop robust ways to decode single molecule imaging data. Your profile The candidate should hold a PhD in biophysics, chemistry, nanoscience or related subjects and have a
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on two types of phenomena: (i) Charge Density Wave (CDW) order in magnetic, lanthanide-based MOFs and (ii) electride-like, quasiatomic electron states that reside in the pores of certain MOFs. The aim