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About the project: Supervisor: Professor Nicholas Hine, University of Warwick This project uses cutting-edge computational and machine learning methods to accelerate catalyst discovery for fuel cell
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: 05 October 2026 Deadline: 01 Apr 2026 Project Title: Next-Generation Membrane Testing for Fuel Cells and Electrolysers Using Terahertz Spectroscopy Abstract: This is a unique opportunity to join a
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PhD student position on development of innovative bifunctional oxygen electrodes for SOC technology.
Programme? European Union / Next Generation EU Reference Number PR129500 Is the Job related to staff position within a Research Infrastructure? No Offer Description The Nanoionics and Fuel Cell Group
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and a construction and testing capability up to 5MW Vision This project aims to leverage the electric propulsion hardware developed in the EU-funded €40M NEWBORN – “NExt generation high poWer fuel cells
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for a carbon neutral fuel across a broad range of industries. The transport sector has identified liquid hydrogen as a suitable fuel source for hydrogen combustion engines and hydrogen fuel cells, such as
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for participation in conferences. Students will join the Hartnoll Centre for Experimental Fuel Technologies , which aims to develop innovative fuel cell and battery technologies, underpinned by fundamental
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applications such as fuel cells and fluid manipulation in microfluidic devices. Due to its strong relevance to reducing carbon emission and energy transition, and the presence of rich physical mechanisms at pore
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of the development of new energy applications such as fuel cells and electrolysers. You will integrate and operate automated laboratory equipment to ensure reproducible and data-rich experiments. Close collaboration
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applications in the gut, powered by our developed energy materials - including triboelectric, piezoelectric, and microbial fuel cell technologies. You will collaborate closely with current postdocs and PhD
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of disciplines in plant science reaching from cell biology to ecophysiology and from basic research to industrial applications. Our common goal is to understand the plants’ ability to grow, adapt and