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for detecting subpicotesla magnetic fields? Can we control the trajectory of the current in magnetic fields? Can we form automated routines to answer the above questions? You will work in close collaboration with
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resources Help foster a positive, inclusive, and collaborative group culture, supporting newcomers Communicate results in scientific publications and at international conferences Qualifications Must-have: PhD
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of forensic odontology. The project includes the candidate running clinical studies to collect data and exploring the advantages and disadvantages of implementing automated 3D matching of tooth surfaces
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, on the technologies and workflows of the Biosolutions Development Pipeline. Teaching will align with your area of expertise. We further expect you to contribute to supervising student projects at the BSc, MSc, and PhD
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not required. Experience in programming, simulation and data analysis. Ideally also in experiment automation. Ability to work independently and as part of a team. Excellent communication skills in
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laboratory technician. You will further have access to the DTU Bioengineering’s robotics platform and collaborate with DTU’s Arena for Life Science Automation (https://dalsa.dtu.dk/ ). Beyond DTU, you will
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the human hematopoietic system Experience with automated liquid handling and single-cell isolation systems Extensive knowledge of disease specific domain knowledge, such as cancer or cell development At least
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The successful candidates should have the following qualifications: A PhD in Environmental Toxicology, Chemical Engineering, Environmental Chemistry, Materials Science, or closely related fields. Solid
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CAPeX research themes and X-trails, our organization, and the other open PhD and postdoc cohort positions at http://www.capex-p2x.com . The automation of laboratory experiments concerning materials