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Field
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Silicon nitride, Si3N4, is generally considered a thermal insulator with values of thermal conductivity, k, as low as ~30 Wm-1K-1, which is much lower than some other ceramics such as silicon
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responsible for optical degradation in such devices. In particular, the project focuses on the evolution of defects under electrical and thermal stress, which limits both the electrical-to-optical conversion
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using thermal fertility limits as well as microclimate modelling for predicting distributions and seasonal population dynamics. As such the position will include a combination of ecological modelling and
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-dimensional plasmonic metasurfaces. The goal is to disentangle hot-carrier and thermal contributions and optimize metasurface designs for site-selective hot-carrier generation with minimal heating. The work
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energy consumption by 5–6% and decrease carbon dioxide emissions by around 5%, the current renovation rate remains below 1% per year. In this context, the HORIZON-CL5-2024-D4-02-02 funded project RADIANCE
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. The initial stages of the project will include establishing sample fabrication protocols using different growth techniques, such as sputtering deposition, thermal evaporation, and e-beam evaporation. The PhD
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project, will contribute to the development of a 3D thermal and fluid-flow model spanning from the well scale to the basin scale, enabling the assessment of the region’s geothermal potential at any given
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Application deadline: All year round Research theme: Applied Mathematics, Computational Metallurgy UK only This 3.5-year PhD project is fully funded and home students are eligible to apply
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Application deadline: 30/05/2026 How to apply: https://uom.link/pgr-apply-2425 This 4-year PhD studentship is open to Home (UK) applicants. The successful candidate will receive an annual tax-free
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dynamics (CFD) will be developed and coupled with the existing model to account for melt pool dynamics to include advection in the thermal modeling and to predict porosities and imperfection trajectories in