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. 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
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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
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. 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
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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
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Deutsches Zentrum für Luft - und Raumfahrt (DLR) | Koln, Nordrhein Westfalen | Germany | about 2 months ago
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
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. Instrumentation includes multiple X-ray platforms and electron microprobe analyzer; atomic absorption, inductively coupled plasma emission and fourier transform infrared spectroscopy (https://shimadzuinstitute.org
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. 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
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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
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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
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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