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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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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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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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(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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electrocatalysts for ammonia/urea/methanol oxidation reaction to be used as the anode for direct ammonia/urea/methanol fuel cells. Develop electrocatalysts for the synthesis of ammonia or methanol at mild conditions
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), and techno-economic analysis (TEA) of tubular solid oxide electrolysis cells and stacks. You will work in collaboration with other partners on the development of advanced materials and modelling
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Qualifications include a PhD in Biology, Physiology, or Medicine from a recognized institution, with strong preference for prior experience in Cell Biology, Histology, and Biochemistry, demonstrated by a solid
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. Responsibilities and qualifications Your overall focus will be to advance next-generation solid oxide electrolysis cells by combining experimental degradation studies with advanced electrochemical impedance
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schools in the world. For more details, please view https://www.ntu.edu.sg/mae/research . We are looking for a Research Associate to support advanced research on solid oxide cells (SOCs), oxygen-vacancy
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elucidate many fundamental and applied problems. A notable example of the complexity of this relation is a variable resistance capacity of cells with identical genotypes to stressors, which allows bacteria