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The burgeoning field of synthetic biology offers promising avenues for engineering artificial cells with tailored functionalities for diverse biomedical applications. This PhD project aims
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the in-patient setting. This project would be suitable for someone with an undergraduate degree in Electronic Engineering, Physics, Computer Science, Biomedical Engineering, or from a clinical/healthcare
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evaporation patterns. You will then investigate their uses in applications such as surface design, 3D printing or droplet microfluidics. It is expected that the applicant will have a good degree in Engineering
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Applications are invited for a PhD in Engineering Education based in the Remote Laboratories led by Prof Tim Drysdale. The co-supervision team comprises of Prof Tim Stratford, and Dr Jonathan Terry
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, we are seeking a highly motivated candidate with established hands-on experience in chemical engineering, materials, or biology.
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of aero-engines, centrifuges, wind turbines, electric motors, range extenders, fans, pumps, compressors etc. etc. and they serve in almost every industry imaginable ranging from renewable energy through oil
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technologies, by bringing most up-to-date bioscience and engineering together, so off-grid systems are configured with confidence. The project at the University of Edinburgh specifically addresses a pressing
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. Candidate requirements, Prospective candidates will be judged according to how well they meet the following criteria: A first-class honours degree (or equivalent) in Engineering, Physics or Materials Science
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relevant subject (physics, mathematics, engineering, computer science, or related subject) Proficiency in English (both oral and written) Prior research experience in the domain of databases is highly
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is found. Eligibility: Minimum entry qualification - an Honours degree at 2:1 or above (or International equivalent) in a relevant science or engineering discipline, possibly supported by an MSc Degree