Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
-
Field
-
collaboration with DTU Bioengineering and DTU Electro. We emphasize the following required qualifications and skills: Strong foundation in Mechanical Engineering, Materials Engineering, Manufacturing or related
-
(AIPs). In this interdisciplinary and highly collaborative project, funded by the Novo Nordisk Foundation Disease Catalyst program, we will target the biosynthetic machinery and receptor tyrosine kinase
-
environment In our laboratory we are studying cardiometabolic diseases (MetSy), such as stroke to try to understand the cellular and molecular mechanisms that contribute to impaired functional outcome. We have
-
of material science and engineering, environmental engineering, chemistry, chemical engineering, and mechanical engineering. Experience with polymer materials, membranes or waste materials. Prior experience in
-
, depending on the candidate’s strengths and interests, following one or more tracks: Privacy-preserving mechanism: quantify privacy risks and develop privacy protection techniques so that grid operators can
-
, installation and efficient operation of affordable cooling solutions of buildings in hot and humid climates. The stipend is within the general study programme "Civil Engineering" is open from 15th February 2026
-
programme, please see DTU's rules for the PhD education . Assessment The assessment of candidates will be performed by Professor Bengt Johansson, Project leader of the AI controlled engine project and future
-
the EU Research Framework Programme? Horizon Europe - MSCA Marie Curie Grant Agreement Number 101227010 Is the Job related to staff position within a Research Infrastructure? No Offer Description Within
-
the EU Research Framework Programme? Horizon Europe - MSCA Marie Curie Grant Agreement Number 101227010 Is the Job related to staff position within a Research Infrastructure? No Offer Description Within
-
Job Description Are you motivated by the potential of proteomics and AI to uncover hidden biology? Do you want to map the dark extracellular matrix proteome and degradome and reveal novel mechanisms