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more sustainable and renewable society. In this project, you will investigate novel electrocatalytic materials for applications in hydrogen fuel cells. Information about the division and the department
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Electrocatalysis will play a pivotal role in the transition from our fossil fuel-based society to a more sustainable and renewable society. In this project, you will investigate novel
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The cost of renewable technologies has plummeted making them the cheapest electricity source in many markets. Yet wind and solar power still grow too slowly compared to what we need for achieving
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renewable fuels for transport. We seek to rigorously analyze the feasibility of energy transitions, utilize empirical as well as estimated data, and explore whether and under what conditions changes can occur
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storage and cost-efficient freight. The cyclic reduction/oxidation of metal oxide/metal is a promising approach for the storage of intermittent energy from renewable sources and on-demand provision of CO2
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promising approach for the storage of intermittent energy from renewable sources and on-demand provision of CO2-free heat, power and hydrogen. For the oxidation step (energy discharge), the project will
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of biology and medicine, materials science, renewable energy, to chemical engineering processing, material recycling, nuclear chemistry, as well as theory and modeling. The department is committed to teaching
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within chemistry and chemical engineering. The research activities span from fundamental chemistry, chemistry at the interface of biology and medicine, materials science, renewable energy, to chemical
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Biorefineries, where renewable feedstocks are converted by microbial biocatalysts to bio-based chemicals, are instrumental to transition away from fossil-resource dependent processes. In our research group, we
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metabolic engineering tools to address current biotechnological challenges. Project description Biorefineries, where renewable feedstocks are converted by microbial biocatalysts to bio-based chemicals