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lower-cost offshore power architectures. The project will produce efficient, practical SWIPT systems with novel metamaterial devices, enhanced adaptability, and validated performance. Results will lead to
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Do you have an Architectural Degree? Are you curious about how digital technologies can enhance our critical approaches towards the conservation of built heritage, especially in the context
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principles, with interdisciplinary contributions spanning hydrodynamics, naval architecture, energy systems and coastal engineering. This project is ideal for candidates with backgrounds in engineering, ocean
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, or even computational architectures. What we are looking for: Research Associate: hold a PhD (or equivalent) in Aerospace Engineering or a closely related discipline. Research Assistant: A first/masters
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to examine how donor structure and solvent environment govern chalcogen bonding interactions. More applied projects involve designing, synthesising, and evaluating new chalcogen bond donor architectures
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computationally. This combined analytical and theoretical approach will identify optimal catalyst architectures and substrate classes to achieve highly selective and previously inaccessible catalytic outcomes. In
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. The project will focus on the design, synthesis, and optimisation of novel materials capable of efficient proton or oxygen-ion conduction, depending on the targeted device architecture. Candidate materials may
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of calculations on a hardware architecture that matches the inherent nature of quantum chemistry electronic structure calculations and with it the opportunity to capture some of the inherent physics, albeit with
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to work effectively both independently and within a research team Desirable Competences The prospective candidate may also have: A background in architecture or interdisciplinary built-environment fields
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The Cambridge Sustainable Design Group within the Department of Architecture invites applications for a Research Assistant or Research Associate to work on the Health-driven Design for Cities (HD4