Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
, with particular emphasis on atherosclerosis. The project builds on and complements the institute’s expertise, led by Prof. Oliver Soehnlein, in understanding how neutrophils drive chronic sterile
-
class of tutorials per semester. Requirements for the position: Holding a Master's degree in Mathematics, Physics, or similar subjects at the starting date of the appointment (June 2026 at the latest
-
diagram fitting (ChronoGal)” (Ref. HORIZON EUROPE ERC-2024-ADG, Grant Agreement number: 101201412), led by Prof. Carme Gallart. The successful candidates will work towards obtaining their PhD at the IAC's
-
to accelerate the green energy transition. Responsibilities and qualifications Your primary research tasks will include: Development of research design in collaboration with the supervisor team Data collection
-
Master students. Your profile: We expect: a M.Sc. in experimental nuclear physics and good communication skills in English (both verbal and written). Experience in the field of ion trapping and mass
-
will work in the subproject 1, ecoclimatology in mountain forests under climate change (Prof. Dr. Annette Menzel). We are looking to fill the position of a PhD student (m/f/d) in the field
-
: SDU (Profs. Tobias Neher & Michal Fereczkowski), the German Institute of Hearing Aids GmbH (PD Dr. Hendrik Husstedt & Dr. Florian Denk), Odense University Hospital (Clinical Prof. Jesper Hvass Schmidt
-
Stage Researcher (R1) Positions Master Positions Country Denmark Application Deadline 15 Sep 2025 - 23:59 (Europe/Copenhagen) Type of Contract Temporary Job Status Full-time Hours Per Week 37 Offer
-
part of this project, in-depth case study research will be conducted in Uganda, Kenya and Tanzania as well as the three destination countries of South Africa, Belgium and the USA. The main objective
-
to the evaluation of absolute sustainability of biobased systems, from a biorefinery to a whole biobased society. The main tasks are: Development of a large-scale model of the carbon material flows in a biobased