Sort by
Refine Your Search
-
Listed
-
Employer
- Technical University of Denmark
- Nature Careers
- University of Southern Denmark
- Aarhus University
- University of Copenhagen
- Aalborg University
- ; University of Copenhagen
- ; Technical University of Denmark
- ; University of Southern Denmark
- Copenhagen Business School , CBS
- European Magnetism Association EMA
- 1 more »
- « less
-
Field
-
toxicity, drug metabolism and drug transport. Examples of this include cell-based models such as induced-pluripotent stem cells, primary human hepatocytes and clinical studies. The environmental medicine
-
of Southern Denmark, Vienna, and Gothenburg, as well as Carnegie Science, and synergistically integrates innovative oceanographic, biogeochemical, ecophysiological, and model-based investigations. The position
-
– the third-largest city in Denmark with 200.000 inhabitants. Odense provides family-friendly living conditions in a historic city with an urban feel where nature and other recreational areas are never far
-
and established companies in robotics. We specialize in robot solutions involving modelling, estimation, and control of advanced robot systems. In addition, the candidate will be integrated into CAPeX
-
, stimulation and transduction of T cells, and standard molecular biology methods, including cloning. Experience with flow cytometry and animal work is essential. Hands-on experience using cancer models in mice
-
Do you have experience with modelling structures subjected to dynamic loading? Are you interested in data-driven methods for modelling applied loading? Are you eager to share your knowledge within
-
part of the Dynamical Systems Section. We perform research within a broad range of areas within dynamical systems including modeling, optimization, forecasting, and controlling in both deterministic and
-
development for postdoctoral researchers at AU. International applicants International applicants are encouraged to read about the attractive working conditions and other benefits of working at Aarhus
-
partial reprogramming techniques to reverse age-related decline in health, focusing on improving healthspan and organ function in aging models. Key recent publications from Dr. Sahu’s previous work include
-
engineering. It covers a wide range of manufacturing processes and modelling approaches, metrology at all scales, micro/nanomanufacturing, and additive manufacturing. The research is based on a