Sort by
Refine Your Search
-
preparation Deriving insights for film and device fabrication based on the above described workflow Your Profile: Masters degree in physics, materials science, physical chemistry, electrical engineering and
-
Profile: Masters degree in physics, materials science, physical chemistry, electrical engineering and related disciplines Very good grades in the masters and bachelors degrees are mandatory Knowledge
-
, conferences, and as scientific papers Contribute to educational events, such as hackathons, data challenges and courses Your Profile: Excellent Master`s degree in computer science, science, engineering or in a
-
and courses Your Profile: Excellent Master`s degree in computer science, science, engineering or in a similiar field Strong software engineering and programming skills Broad interest in scientific
-
Your Job: The electrocatalytic interface engineering department led by Prof. Dr.-Ing. Simon Thiele focuses on synthesis, manufacturing, analysis and simulation of functional materials to find
-
. The nanoporous structure steers the transport of ions, water, and gas molecules, and it maximizes the active interfacial area between electrode and electrolyte phases. A deep understanding of the complex interplay
-
approaches to the production of carbon-based carrier structures (primarily made of graphene oxide) with nanoscale active materials. For this reason, known materials for negative and positive electrodes based
-
engineering, materials science, mechanical engineering or other related fields Strong background in physical chemistry and thermodynamics including the development and understanding of phase diagrams Experience
-
components in electrochemical hydrogen technologies, most importantly in the form of electrocatalytic layers (ECLs) of fuel cells and electrolysers. The nanoporous structure steers the transport of ions, water
-
engineering department led by Prof. Dr.-Ing. Simon Thiele focuses on synthesis, manufacturing, analysis and simulation of functional materials to find an optimum structure on small scales from the micrometer