43 creative-interactive-display Postdoctoral research jobs at Technical University of Denmark in Denmark
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on carbohydrate-based vaccines for cancer and infectious diseases. We are looking for creative minds with excellent practical lab skills to design smart syntheses and biological studies. Responsibilities and
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processing and data management We are looking for a profile with the motivation and drive needed for making novel discoveries in a multi-disciplinary team. We look for: Creativity, and openness to innovation
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advanced biochemical methods (e.g., SPR, BLI, ELISA, fluorescence-based assays) Has experience with yeast display Has strong documentation of peer-reviewed publications Demonstrates the ability to work
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Electro in the Quantum and Nanophotonics Section , which focuses on leveraging fundamental light-matter interactions for applications in sensing, optical communications, and quantum technologies
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. Thus, part of this project will be to validate the upgraded EC-MS while analyzing oxygen evolution catalysts at these more industrial relevant conditions. The project will also look for new and creative
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existing genetic tools and constructs Work with surface-displayed and soluble carbonic anhydrases Perform biochemical and functional characterisation of carbonic anhydrase variants Apply established
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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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of turbulence and fast-ion interactions. Your work will not just observe plasma behaviour; it will illuminate the fundamental physics required to control it. Your Role: Pioneer and Innovator As the lead postdoc
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collaborative team under the supervision of Søren Hauberg. The research environment favors creative ‘slow thinking’ style research, and we emphasize having fun along the way. Our work is consistently published
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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