Sort by
Refine Your Search
-
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
-
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
-
reaction phenomena in nanoporous electrocatalytic materials Collaboration with partner groups in a German–Canadian research project Your Profile: M.Sc. degree in physics, physical chemistry, chemical
-
of scientific publications and project reports Your Profile: A very good university degree (Master or diploma) in materials engineering, materials science, mechanical engineering or other related fields Strong
-
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
-
) in chemistry, materials science, geoscience, physics or related field Experience in laboratory work, e.g. synthesis and/or physicochemical characterization such as IR, CHN, PXRD High motivation
-
at the electrolyte/ electrode interface You participate in regular project meetings with the involved partners from industry and research Your Profile: Successfully completed Master`s degree in chemistry, materials
-
the involved partners from industry and research Your Profile: Completed academic studies (Masters) in chemistry or materials science or a comparable field of study Background knowledge and proven interest in
-
the complete chain from materials properties to process design and evaluation. More information on the project can be found here: This specific project (DC2) addresses preparative scale cross flow filtration
-
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