Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- Technical University of Denmark
- University of Southern Denmark
- Nature Careers
- Aalborg University
- Technical University Of Denmark
- University of Copenhagen
- Graduate School of Arts, Aarhus University
- ; Technical University of Denmark
- Aarhus University
- Copenhagen Business School , CBS
- Roskilde University
- Technical University of Denmark;
- University of Oxford
- Xi'an Jiaotong - Liverpool University
- 4 more »
- « less
-
Field
-
pavements that are subjected to moving, accelerating, braking, and turning wheel loads. The work will be carried out as part of the LOOPER project, supported by the Danish Energy Agency. The LOOPER project
-
and qualifications Your overall focus will be to develop and evaluate bio-based circular packaging materials that improve food safety, reduce waste, and support circular value chains. The work includes
-
bridge between KTH’s expertise in early disaster risk detection (e.g., ignition risk mapping for wildfires) and DTU’s strength in AI-supported decision-making for safety-critical systems. Your work will
-
circular, economically viable future for packaging. Through SSbD assessment in collaboration with the consortium, experimental work and risk modeling, you will help uncover the hotspots in the production
-
theoretical models to describe the dynamics of quantum light sources, with the goal of understanding their behavior and improve their performance. You will work in close collaboration with the experimental team
-
working with Livestock data is an advantage. Can speak and write English fluently is a prerequisite. Place of employment and place of work The place of employment is Aarhus University, and the place of work
-
advantageous: Experience in laboratory work, including casting and testing mortar and concrete, as well as the use of general testing and characterization methods, is a prerequisite Experience in using X-ray
-
systematic reviews in RBAs could lead to more valid assessments and living support systems to public health decisions. By joining the Risk-Benefit Research Group at DTU National Food Institute, you will work
-
design to develop new high-potential organic flow battery electrolytes with unprecedented stability. The computational work will be done in close collaboration with an experimental counterpart
-
, the project implements an approach combining social, institutional, and digital history across three work packages: (i) Communities, (ii) Hierarchies, and (iii) Infrastructures. To operationalize its approach