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-temperature solid oxide steam electrolyser stack for efficient hydrogen production using an innovative meta-surface catalyst and cell design approach, with advanced techniques such as thermal-spray coating and screen
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-temperature solid oxide steam electrolyser stack for efficient hydrogen production using an innovative meta-surface catalyst and cell design approach, with advanced techniques such as thermal-spray coating and screen
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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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(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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research facilities. The group is among the world-leading in solid-state electrochemistry and materials science of proton-conducting oxides for electrochemical energy conversion technologies such as proton
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to the new Life Science Building by mid 2026 which offers modern research facilities. The Electrochemistry group is among the world-leading in solid-state electrochemistry and materials science of oxides
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of electrochemical cells (e.g., solid oxide fuel cells) or materials therein. Experience with analysis of electrical, kinetic or electrochemical properties, e.g., using isotope exchange techniques or electrochemical
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undergraduate students, write scientific papers and quarterly reports. Qualifications PhD in materials science and related disciplines with solid oxide fuel cell knowledge. Job Duties Job Duty Synthesizes and