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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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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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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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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
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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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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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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