Sort by
Refine Your Search
-
Listed
-
Employer
- Nature Careers
- Technical University of Denmark
- Aalborg University
- University of Southern Denmark
- Aarhus University
- University of Copenhagen
- Aalborg Universitet
- Copenhagen Business School
- Roskilde University
- Technical University Of Denmark
- Aarhus University;
- European Magnetism Association EMA
- Queen's University Belfast
- UNIVERSITY OF COPENHAGEN
- 4 more »
- « less
-
Field
-
. Specifically, the postdoc will develop and test up-scaled microbial electrosynthesis reactors involving advanced electrochemistry, reactor design, and scaling approaches. Expected start date and duration of
-
spectroscopy and materials characterization. You will work closely with colleagues and external partners to identify the mechanisms limiting SOEC performance and durability and develop EIS-based diagnostic tools
-
, including: Designing and developing relevant silicon photonic integrated circuits (PICs). Preparing and taping out PIC designs for external fabrication (e.g., via Cornerstone, UK). Working with TNO
-
theory, symmetry analysis, and group theory. You will work on developing and applying these ideas to discover new photonic phenomena, implement associated computational tooling, and to find opportunities
-
the opportunity to take a central role in developing next-generation continuous-variable quantum communication systems, including high-bandwidth squeezed-light sources, ultralow-noise detection, and advanced DSP
-
amino acids, e.g. lysine, using fermentation technology. For this purpose, microorganisms that efficiently secrete amino acids will be developed. The vision is that microorganisms, in the future, can be
-
effective and sustainable biomanufacturing. However, little is known about non-model gas fermenting microorganisms. The focus of the advertised position will be on developing and applying cutting edge
-
sets, lexicon development, use of instrumental techniques to correlate or predict sensory characteristics and multivariate data analysis. This position is part of an interdisciplinary research project
-
opportunity to join an ERC-funded research project (BioRIcON) focused on developing nucleic acid-based artificial motors and devices for precise regulation of key cellular processes. Expected start date and
-
-year extension. The project is fully funded by the Independent Research Fund Denmark (DFF). The main objective of this project is to develop physics-constrained, data-driven turbulence models