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operation. This is an exciting PhD project with industrial collaborators at the intersection of power systems, artificial intelligence, and mathematical modelling. The project is well-suited to students with
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is essential to maintaining UK leadership in power electronics and supporting strategic supply chain resilience. This PhD project will focus on the design, modelling, and optimisation of ultra-high
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validation methods employed for battery systems created for electric vehicles, aerospace or stationary storage. This PhD will aim to deliver a new validated methodology for scientifically assessing lithium-ion
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About the project: Extreme Space Weather: Modeling Rare Solar Storms and Their Impacts on Earth Supervisor: Dr Ravindra Desai, University of Warwick Space weather is driven by eruptions of plasma
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into electrical energy, crucial for sustainable power and waste heat recovery. Their efficiency is measured by the figure of merit, ZT. Achieving high ZT requires a delicate balance: high electrical
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of spins that could form the basis of future low-power data storage devices. However, real skyrmions are three-dimensional and can twist, stretch, or deform when trapped by material defects - behaviour
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Supervisor: Dr Ravindra Desai, University of Warwick Space weather is driven by eruptions of plasma from the Sun’s surface called coronal mass ejections. Upon arrival at Earth, these not only extend
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A 4-year PhD position is available as part of the EUTOPIA PhD co-tutelle programme, working jointly in the groups of Mark Greenhalgh at the University of Warwick and Frank De Proft and Mercedes
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(UK or worldwide) Research Summary: We are advancing a range of projects focused on chalcogen bonding across synthetic, catalytic, analytical, and computational chemistry. Chalcogen bonding is an
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The Photochemistry for Materials group is looking for an enthusiastic candidate to join our research team at the University of Warwick to carry out a 3.5-year PhD project, under the supervision