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Thesis
Home / Post Doctorat / Post-doctoral position in Solid State Electrochemistry / Ceramic and metallic materials / High temperature corrosion
Post-doctoral position in Solid State Electrochemistry / Ceramic and metallic materials / High temperature corrosion
Advanced hydrogen and fuel-cells solutions for energy transitionEngineering sciencesMaterials and applicationsTechnological challenges
Abstract
High-temperature electrochemical solid oxide (SOC) devices (650-850 °C) are considered as one of the most promising technologies thanks to various advantages such as a high efficiency, a relative low cost and a good reversibility in fuel cell (SOFC) and electrolysis (SOEC) operating modes. To better understand and limit metallic interconnect oxidation and chromium evaporation through the use of coatings remains a key challenge for the optimization of the system durability in SOFC and SOEC operation (degradation rate 3000 h). The post-doctoral work represents the main part of this project and is exclusively funded by it. The evaluation of protective coatings and a contact layer will be mainly performed thanks to electrochemical characterizations of performances and durability of the adjacent cell, and post-test microstructural characterizations as well compared to the bare steel. This work should lead to at least 1 publication and 1 presentation at EFCF conference in 2026.
Laboratory
Département Thermique Conversion et Hydrogène (LITEN)
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