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well as fuel cells. Your main responsibilities include: Synthesis and characterization of catalyst particles for electrochemical hydrogenation and dehydrogenation of liquid organic hydrogen carrier (LOHC) in
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routes (metal-catalysed reactions, hydrogenations, etc.) for obtaining the compounds. The candidate will participate in the common tasks inherent to laboratory life and will be involved in ordering
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Summary The UK’s net zero strategy clearly emphasises the role of heat pumps, other renewable technologies (e.g., Solar PV/thermal, hydrogen), and EVs with an increased share of renewable
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hydrogen-enabled concepts. The ideal candidate is curious, collaborative, and driven by scientific quality, and enjoys working in a research environment that combines fundamental understanding with system
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-to-X systems using high-temperature electrolysis (SOEC). The developed methods will serve to optimise the operation of SOCs for hydrogen production both technically and economically and improve tolerance
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existing stable isotope facility. The Department of Earth Sciences at the University of Delaware houses a state-of-the-art stable isotope laboratory (https://sites.udel.edu/eis-lab/ ) equipped with advanced
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the scope of Work Package 2 – Green H2 Production. In particular, the assistant researcher will contribute to the following project work: Monitor the state of the art regarding hydrogen production
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criteria must be fulfilled to determine the appropriate profile for the activity to be developed: Previous experience in innovative chemical processes for catalytic hydrogen production, namely by catalytic
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applications for the position of at the Faculty of Mechanical Engineering Research Assistant Professor (POST-DOC) under the NCN project No. UMO-2024/53/B/ST8/02908: “Optimization of hydrogen oxy-combustion and
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of today’s most pressing environmental challenges. Greenhouse gases (GHGs) and industrial emissions such as methane (CH₄) and hydrogen (H₂) directly impact air quality, safety, and climate change. Yet