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seawater. Addressing these challenges involves developing high-performance electrocatalysts tailored for seawater electrolysis to achieve industrial-level oxygen evolution reaction (OER) current density
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Applicants should have a 1st or 2.1 UK degree or an equivalent in a discipline related to electrical engineering, energy, or computer science. The ideal candidate should have background of electrical and
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the complexities of cyclic loading. Training and Skills You will benefit from a taught programme, giving you a broad understanding of the breadth and depth of current and emerging offshore wind sector needs
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and improved air quality. Current transition models however are often of limited use to engineering design of these systems because the inlet of the pipeline, which plays a key role in the development
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need for innovative technologies that can address current challenges facing cell and gene therapy biomanufacture. Major advances are needed to enrich process integrated analytical tools, enabling
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devices, flexible, etc). However, optimisation for specific applications can be a challenge. A combination of innovative measurement techniques based on spatial, optical and electrical characterisation
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formulations (it is made like a paint) that contain nanoparticles of different charge, one for each surface. When they are joined, electrostatic adhesion occurs. However, on their own as individual coatings
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for electrification of transportation such as automotives, rail, and aviation, as well as stationary energy storage for electricity generated from renewable sources including wind and solar. Rechargeable batteries
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Norway and Japan. There is an opportunity, therefore, for technology and expertise linked to floating wind to be developed in the UK and exported overseas, much as has been done with the current wind
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dynamic and interdisciplinary research landscape, attracting the attention of researchers, engineers, and innovators from a wide array of fields. This pursuit of diverse AWT technologies has led to exciting