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Project title: Atomistic Simulations of Surface Chemistry underpinning the Atomic-Scale Processing of Materials for AI-driven Nanoelectronics Applications Supervisor: Dr. Bora Karasulu (Assistant
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Supervisors: Prof. James Kermode (Engineering) and Dr. Thomas Hudson (Maths) Summary: Inverse problems are a general class of problems that involve calibrating the parameters of a model using
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: Computer Science, Cognitive Science, Colour Science Project start date: 1st October 2024 Supervisors (*lead): Dimitris Mylonas* (Northeastern University London) Alexandros Koliousis* (Northeastern University
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and promoting waste. The achievement of net zero requires that materials remain efficient and in use for longer. Therefore, means to extend the lifetime of different components in different industries
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production. In this role, you will develop control over the bonding at interfaces between materials and layers, achieving new engineering solutions only possible through multi-material additive manufacturing
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will carry out his/her doctoral research at UCL in materials chemistry for the synthesis and discovery of new metal oxide-based scintillator materials for imaging. The PhD studentship will focus
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PhD Studentship: Centre for Doctoral Training in Composite Materials, Sustainability and Manufacture
Award: PhD Duration: 4 years Department: Mechanical, Materials and Manufacturing Engineering Funding: A tax-free enhanced stipend of £24,917 per annum and tuition fees for four years, subject to
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real impact. Essential and Desirable Student background Criteria Background: Engineering ideally with material science Essential knowledge - skills – experience: analytical skills, ability to demonstrate
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on the application of nanobubbles to support waste management at the UKs designated nuclear waste management site for civil power generation and experimental fuels. Delivered in collaboration with the sponsor
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processes to synthesize nanomaterials with well-defined atomic structures, assemble these nanomaterials into functional macroscale structures, and use these novel materials for sustainable energy and