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, with collaboration across synthetic biology, computational biology, and microbiology. The student will work within a dynamic, interdisciplinary team with access to state-of-the-art facilities and
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Primary supervisor - Prof Emilian Parau Inviscid liquid jets subject to surface tension and in the absence of gravity are known to be unstable under long-wave perturbations, a phenomenon described
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combining physical models, sensor data, computational methods, and damage and fracture mechanics concepts to create a virtual replica of the composite tank, enabling predictive maintenance, lifetime
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integrity. Number Of Awards 1 Start Date 1st October 2026 Award Duration 4 years Application Closing Date 18th February 2026 Sponsor EPSRC Supervisors Dr Sabeeha Khadaroo (SAgE, Chemical Engineering) Prof
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discovery and basic research to clinical translation. The PhD student will be part of the Organs-on-Chip Technologies Lab (Prof. O. Guenat), which integrates microfluidic engineering with advanced cell
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physics, materials science, computer science or a related discipline background in one or more of the following areas is desired: X-ray or electron imaging techniques, and image processing proficiency in
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applicants with purely (bio-)informatics background will not be considered. For inquiries, please contact: Prof. Gerd Meyer zu Hörste, gerd.mzh@uni-muenster.de Apply now via our career portal including CV and
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Network with 15 funded 3-year PhD positions in parallel. Your profile Master Degree in environmental/natural sciences or engineering, or similar. Experience with developing computational models Preferably
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Supervisors Dr Haoyu Huang , Lecturer in Structural Engineering, School of Engineering, Newcastle University Prof Sean Wilkinson , Professor in Structural Engineering, School of Engineering, Newcastle
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Synovium-on-a-Chip, using 3D bioprinting, microfluidic engineering, and computational fluid dynamics (CFD), to create a dynamic, perfused system that mimics the human synovial environment. The platform will