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several underwater robotics deployments across Cumbria; therefore, it is expected that the candidate will be based at the University of Manchester’s RAICo One facility (https://hotrobotics.co.uk/facilities
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materials for electrolyzer technology to produce sustainable chemical feedstocks. The key objective is to integrate hydrogen production with the electrochemical conversion of waste plastics into value-added
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investigate how emerging fuels, such as e-fuels, advanced biofuels, hydrogen carriers, and ammonia-based blends, behave under realistic engine-relevant conditions. Using a specially modified research engine and
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. Within this broader framework, hydrogen systems, including liquid hydrogen storage, are used as empirical case studies to ground and stress-test the proposed methods. The scientific objective, however, is
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mutual agreement. We develop computational methods to accelerate materials discovery through defect engineering, with a focus on extreme environments. Application areas include fusion reactors, hydrogen
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for hydrogen production both technically and economically and improve tolerance against impurities. In doing so, you will make a direct contribution to national and European climate targets. Your tasks in detail
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chemical reactivity of hybrid clusters. Ongoing projects include the interaction of hydrogen with gas phase carbon-metal clusters and carbon dioxide reduction using fullerene-transition metal hybrids as
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, such as blade erosion, fatigue cracking, and high-cycle fatigue. The model will focus on critical structural issues, including leading-edge erosion, hydrogen embrittlement in marine environments, and load
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group "Hydrogen and Electrofuels" and the PhD Student will be positioned to the Section for Thermal Engineering. Your competencies The candidate must have a Master degree in the relevant area (e.g
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INV.JUN.17.2025 - DCM | JUNIOR RESEARCHER | MATERIALS ENGINEERING, NANOTECHNOLOGY AND RELATED FIELDS
of WP2 (Development and production of green hydrogen) of the M-ECO2 project, which will investigate the development of photovoltaic (PV) technology to power the electrochemical synthesis of sustainable