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conventional thermal activation. By choosing the right combination of plasma parameters, feedstock recipes and reactor topology, plasma-driven hydrocarbon synthesis from CO2 may be a very attractive, near future
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University of Technology (TU/e)CountryNetherlandsCityEindhovenPostal Code5612 APStreetDe Rondom 70Geofield Where to apply Website https://www.academictransfer.com/en/341398/postdoc-on-plasma-driven-co2-upgradi
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project activities, particularly on plasma enhanced CO2 to methanol reactions. In this multi-faceted role, you will be involved in variety of activities such as rig configuration, reactor fabrication
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of lower activation energy than conventional thermal activation. By choosing the right combination of plasma parameters, feedstock recipes and reactor topology, plasma-driven hydrocarbon synthesis from CO2
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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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reaction mechanisms of catalysts in plasma and demonstrate the rational design of plasma catalysts for CO2 hydrogenation. As a PhD student, you will compare the interaction of catalytically active metals
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& Professor Pete Licence based in the GSK Carbon Neutral Laboratory for Sustainable Chemistry at the University of Nottingham. This is a highly stimulating project in utilising cold plasma sources
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: This PhD studentship will focus on overcoming current limitations in plasma catalysis for the synthesis of fuels and chemicals (e.g., CO2 hydrogenation, N2 activation) at ambient conditions. The project
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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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Consolidator Grant from the European Research Council titled “Next-Generation Light Source: Driving plasmas to power tomorrow’s nanolithography (MOORELIGHT)”. Background Advanced semiconductor devices