Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
Reference Number: 11239 Fixed-term for 3 years | Part-time with 65% | Salary according to TV-L E 13 | Clinic for Vascular and Endovascular Surgery – Laboratory for Vascular Biology We are UKM. We
-
will contribute to the understanding of copper nucleation processes on various types of substrates in classical and/or industrial electrochemical cell configurations. The project also involves
-
mechanisms. The overall goal of the research project is to develop process understanding and parametrizations that lead to improved, energetically consistent, climate models. Close collaboration with the other
-
neuroscience and ophthalmology, covering a wide range of interrelated topics that focus on the interplay between genetics, metabolism, and information processing. Specifically, the projects in the limits2vision
-
amphiphilicity and how they shape soft matter systems. In the second funding period, we focus on chemical and physical transition processes – such as (nanoscale) phase transitions, dissolution/solvation, catalysis
-
the relevant union. The position is part of DTU’s Tenure Track program. Read more about the program and the recruitment process here . You can read more about career paths at DTU here . Further information
-
€3,108 and €3,939 gross per month (scale Pro, CAO UMC). These figures are based on a full-time position. The procedure involves several stages, shortlisted candidates will be invited to an online interview
-
and skilled individual to join our cross-disciplinary research team studying the ecology of vision. Our goal is to better understand the inter-relationships between vision, evolutionary processes
-
) exhibits a unique operational mode in that a p-n junction doping structure forms during the initial device operation. The PhD project will be performed at the Swedish SME LunaLEC AB (www.lunalec.com ) and
-
Institute for Molecular Imaging. The primary objective of the group’s research is to examine the function of immune cells in response to inflammatory processes in living organisms by employing innovative