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Your Job: Development, preparation, and characterization of state-of-the-art and novel catalysts for polymer recycling towards hydrogen carrier molecules Characterization of polymer thin films
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available within the project “Innovative Nano-Catalysts from Recycled Materials.” The project aims to develop advanced catalytic materials derived from recycled transition-metal-rich waste, contributing
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-free method for nitrogen fixation into liquid nitrogen fertilizer for controlled on farm application. This project combines an atmospheric pressure plasma process with a catalyst, aiming to provide a
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in sustainable technologies, such as water- and CO2-electrolyzers, as well as fuel cells. Your main responsibilities include: Synthesis and characterization of catalyst particles for electrochemical
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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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field of electrocatalysis. Production of catalyst inks is one of the first steps along the development chain to new energy devices like fuel cells and electrolyzers. You will integrate and operate
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biomimetic hybrid catalytic platform that unites the precision of enzymes with the robustness of hierarchically structured heterogeneous catalysts. By mimicking natural compartmentalisation and metabolic
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for at least two years of the project. At Diamond, the student will be able to utilise cutting edge equipment to study single atom catalysts anchored on defective graphene substrates. Catalysis is a key
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Your Job: As part of your doctoral project, you will focus on the development of strategies for the regeneration of catalysts that deactivate in the release of hydrogen from the liquid organic
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Your Job: Synthesis of heterogeneous catalysts (Ni on Al2O3) and characterization involving e.g. TGA, IR, TEM, MS, BET Implementation of a reaction chamber for catalytic measurements into a