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transformational leap—from today’s typical power densities of 2–5 kW/kg to a step-change 10–25 kW/kg by 2035. The highest power dense motors today rely on unsustainable materials and on carbon-intensive
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at the forefront in key energy research and engineering technologies and is uniquely positioned to take a lead role in the transformation toward a sustainable energy future. Research related to green ammonia is a
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Contract Length: 18 months About Us University of East London (UEL) is a vibrant, diverse, and forward-thinking institution dedicated to transforming lives through exceptional education and career
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partnership to transform this landscape. The project will seek to build a consensus for nature restoration in this renowned upland landscape that, in turn, will help to underpin a sustainable local economy
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for stakeholders to work in partnership to transform this landscape. The project will seek to build a consensus for nature restoration in this renowned upland landscape that, in turn, will help
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sectors like aerospace, healthcare, and manufacturing. The convergence of AI with fault-tolerant design principles is transforming traditional maintenance paradigms, leading to more robust and intelligent
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genetics in the grasses, especially in the model systems Zea mays (maize) or Brachypodium distachyon. We particularly welcome candidates with expertise in grass transformation and/or spatial transcriptomics
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of this project is on a holistic investigation of energy efficiency in next-generation mobile networking systems. In the past decade, on the road to 5G, there has been a transformation in the mobile networking
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the scalability and robustness of AI in complex environments which is a major step towards the digital transformation of the manufacturing industry. Motivation Automation is key to meeting the growing demand
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global leader for transformational research and education in technology and management. Research Excellence Framework 2014 (REF) has recognised 81% of Cranfield’s research as world leading