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will be responsible for: - Conducting a literature review on nickel-based anode nanomaterials for the oxidation of oxygenated organic compounds. (Literature review report due in the first quarter
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proposed to the cell manufacturer. [1] K. Kendall, M. Kendall, High-Temperature Solid Oxide Fuel Cells for the 21st Century - Fundamentals, Design and Applications, Elsevier Ltd. (2016). [2] J.T.S. Irvine et
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as soon as possible and is limited to 3 years. Project This subproject of ‘FuturePV’ aims to develop tuneable oxide/oxynitride perovskite thin films for use in tandem solar cells as a charge-selective
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metal-oxide model systems with the potential use in modern technological areas such as heterogeneous catalysis, gas sensors and also as catalysts for fuel cells. The surface structure and morphology
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in this strategy by enabling lost energy to be recovered and delivered on demand. Solid-state sodium-ion batteries (SSSIBs) are emerging as the most efficient short-term energy storage solution
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seeking a highly motivated candidate with expertise in oxide material synthesis under inert atmospheres (Schlenk technique), physical chemistry, CO₂ reduction, and photoelectrochemical cells (PEC
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research facilities. The group is among the world-leading in solid-state electrochemistry and materials science of proton-conducting oxides for electrochemical energy conversion technologies such as proton
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of stacks with solid oxide cells (SOC) in electrolysis mode Electrochemical characterisation of cells during stack operation using direct and alternating current-based techniques (e.g. characteristic curves
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identify the target cells of the therapy (tubule vs. glomerulus, etc.) and potential regeneration niches, as well as metabolic modulations, oxidative stress, and other parameters that are difficult to assess
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to the new Life Science Building by mid 2026 which offers modern research facilities. The Electrochemistry group is among the world-leading in solid-state electrochemistry and materials science of oxides