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Research, teaching & training and technology transfer in fuel cells and related fields (separation membranes, catalysis, fuel chemistry), in particular high temperature solid oxide fuel cells, including their reverse operation as co-electrolysers of steam and CO2. This domain is highly pluridisciplinary, combining mechanical, chemical and materials science engineering, which is reflected in both research and teaching activities. This technology is among the most efficient, both to convert fuels (fossils or renewables) in electricity and heat, or the reverse, store electricity as fuel (H2, CH4). We have established the world record in our lab to convert CH4 in dc current in our fuel cells (75% efficiency). Moreover we electrolyse steam into hydrogen with 100% efficiency, better than classical water electrolysis (<70%).
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Papers共 345 篇Author StatisticsCo-AuthorSimilar Experts
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JOURNAL OF POWER SOURCES (2024): 234047
Thomas Benjamin Ferriday,Suhas Nuggehalli Sampathkumar, Mounir Driss Mensi,Peter Hugh Middleton,Jan Van Herle,Mohan Lal Kolhe
ACS applied materials & interfacesno. 23 (2024): 29963-29978
Scientific reportsno. 1 (2024): 13078-13078
Heliyonno. 13 (2024): e33321
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Journal of Energy Storage (2023): 107986
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