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Nantes Université, École Centrale Nantes, CNRS, GeM, UMR 6183, Nantes F-44000, France | Nantes, Pays de la Loire | France | 2 days ago
energy density because the cell does not require a separator and/or a large electrolyte layer. While all-solid-state batteries are very promising, their development faces numerous challenges, such as lower
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research on phosphate materials for ARAIB, mainly containing ammonium ions; alternatively on novel materials, including sustainable oxides. At ICMPE, the postdoctoral researcher will perform inorganic solids
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PhD student at ILL: studying In situ neutron diffraction for green steel and functional metal oxides
investigations on solids, their phase transitions and chemical reactions. You will develop gas-flow cells for the study of solid-gas reactions with in situ neutron diffraction and implement these on D1B and D20
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PhD student position on development of innovative bifunctional oxygen electrodes for SOC technology.
announces a researcher position (R1.4) in the field of energy devices based on solid oxide cells technology. The candidate will work on developing new materials and processing very focused on the development
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. The Electrochemistry group is among the world-leading in solid-state electrochemistry and materials science of oxides for electrochemical energy conversion technologies especially proton ceramic fuel cells and
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programme on development of direct ammonia solid oxide fuel cells. This programme represents a new and timely collaboration between the United Kingdom and Singapore and will be based at Imperial Global
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corium à la cuve afin de déterminer les conditions de rupture éventuelle de celle-ci et les conditions initiales de l'interaction entre le corium et le béton, ultime barrière de confinement. La rétention
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be assessed in terms of pulmonary toxicity, oxidative stress, inflammation, genotoxicity, transcriptomic alterations, and epigenetic modifications, including microRNA expression profiles and DNA
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programme on development of direct ammonia solid oxide fuel cells. This programme represents a new and timely collaboration between the United Kingdom and Singapore and will be based at Imperial Global
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(NTU) and Imperial College Global Singapore (IGS). The objective of the research is to overcome the challenges related to the use of ammonia in solid oxide fuel cells (SOFCs) so that SOFCs can