12 plasma-spectroscopy-co2 positions

Postdoc: Resolving Surface Reactions in Plasma Catalysis (SURPLAS)

. Project goal In the SURPLAS project, we will determine the surface reaction mechanisms of catalysts in plasma and demonstrate the rational design of plasma catalysts for CO2 hydrogenation. You will

PhD- student: Resolving Surface Reactions in Plasma Catalysis (SURPLAS)

to understand the active state of a surface live during plasma exposure. As a PhD student, you will use a unique approach combining surface-sensitive spectroscopy techniques with highly reactive plasma

PhD: Resolving Surface Reactions in Plasma Catalysis (SURPLAS)

. As a PhD student, you will use a unique approach combining surface-sensitive spectroscopy techniques with highly reactive plasma environment to resolve the critical steps of plasma-assisted reactions

PhD (M/F) non thermal plasma and heterogeneous catalysis

will be to study the non-thermal plasma hydrogenation reaction of CO2, with a particular focus on understanding the reaction mechanisms at the plasma-catalyst interface, using in-situ infrared

92253: Student Physics or similar (f/m/x) - Low-pressure argon-hydrogen plasma for reduction of iron ores

 PhD thesis entitled „Characterization of low-pressure argon-hydrogen plasma for reduction of iron ores“. Iron and steel production are responsible for about 7% of global CO2 emission thus contributing

Assistant Professor of Research

. Instrumentation includes multiple X-ray platforms and electron microprobe analyzer; atomic absorption, inductively coupled plasma emission and fourier transform infrared spectroscopy (https://shimadzuinstitute.org

Doctoral Researcher in Process Metallurgy (reduction of chromite)

. The results will be characterized using typical metallographic methods with supporting optical emissions spectroscopy measurements from the plasma. What we offer? The support of an experienced and enthusiastic

Doctoral Researcher in Process Metallurgy, Faculty of Technology

for Green Metal Production – PlasmArc4Green. The aim of the PlasmArc4Green is to develop digitalization methods for plasma-based processes that are relevant for the transformation towards CO2 neutral metal

PhD Studentship: Microfluid Synthesis of Metal and Metal-Oxide Foams

microstructures, currently not accessible by other fabrication approaches. Such foam materials are needed in context of advanced plasma physics experiments, linking theoretical predictions with state-of-the-art

Postdoc: Resolving Surface Reactions in Plasma Catalysis (SURPLAS)

the rational design of plasma catalysts for CO2 hydrogenation. As a postdoc, you will determine the active state of metal surfaces live in plasma environment and analyze the role of the individual plasma