Sort by
Refine Your Search
-
nationality from biological sciences, chemistry, mathematics, computer sciences and physics. Be part of CiM-IMPRS, a program run jointly by the University of Münster and the Max Planck Institute for Molecular
-
of 2D materials. The PhD study will be pursued within the framework of a cotutelle program between the Technical University of Dresden and Charles University in Prague. The successful applicant will join
-
Description About us: The Russo lab is a new research group in the Physiological Chemistry Department at the Biomedical Center (BMC) at the Ludwig-Maximilians-Universität (LMU) Munich, and is funded
-
Master’s degree in Physics, Chemistry or Computer Science, or equivalent Interest in Physics, Chemistry and Machine Learning Good written and spoken English Ability to work both independently and in a team
-
1,000 employees from over 50 nations, it is the largest institute of the Max Planck Society . The Department of Theoretical and Computational Biophysics headed by (Prof. Dr. Helmut Grubmüller) is
-
including water and aqueous solutions of biologically relevant samples. Your profile Completed university studies (Master/Diploma) in the field of Physics, Physical chemistry, Optics, Biophysics or related
-
institution. At the Faculty of Chemistry and Food Chemistry, the Chair of Molecular Functional Materials offers within the Collaborative Research Center 1415 (CRC 1415, Chemistry of Synthetic Two-Dimensional
-
Biology, Biochemistry, Life Science, (Bio-)Physics, Chemistry, Computer Science, or related fields. Visit the IMPRS-LM website for more information about the program, the application process, and the
-
available in the further tabs (e.g. “Application requirements”). Programme Description International students holding a Master’s degree in (molecular) biology, (bio-)chemistry, physics, mathematics
-
the project partners at KIT and FZ Jülich Your profile Completed university studies (Master/Diploma) in the field of chemistry, physics, geosciences or computer sciences or related field Understanding