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Field
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studies using 2D and 3D cell culture models, e.g. human organoids Apply and develop cutting-edge techniques in virology, cell biology, molecular biology Establish and maintain collaborative projects within
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infection, by exploring both 3D cultures of epithelial cells on collagen-based scaffolds, and commercially available ex vivo skin models. Focus will be on major wound pathogens S. aureus and P. aeruginosa
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vitro models of chronic wound infection, by exploring both 3D cultures of epithelial cells on collagen-based scaffolds, and commercially available ex vivo skin models. Focus will be on major wound
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models and reinforcement learning models for 3D graphs of materials to explore vast inorganic chemical spaces and design synthesizable energy materials. You will couple such models with physics simulation
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properties and 3D musculoskeletal geometries. Info . Novel reinforcement learning (RL) strategies to teach NMS models to execute a broad repertoire of movemets in presence of external disturbances. Info
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numerical modelling tools, i.e. a depth-averaged (2DH) and a 3-dimensional (3D) model, in the TELEMAC modelling system (www.openTELEMAC.org ) to simulate the fluxes and fate of plastics in the Scheldt Estuary
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quantitative image analysis, numerical modeling, and explainable AI (XAI) with state-of-the-art biophysical methods. Using techniques such as traction force microscopy, microfluidics, 3D bioprinting, and
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an excellent translational model for studying oogenesis and early embryogenesis (Smith et al., 2021 Reproduction and 2022 Development). The Bagnaninchi lab has developed a novel optical methodology for 3D
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Candidates with expertise in at least one of the following areas are welcome: Robotic and mechatronic system design Soft robotics / flexible mechanisms 3D printing mechatronics / robotic integration Human
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Candidates with expertise in at least one of the following areas are welcome: Robotic and mechatronic system design Soft robotics / flexible mechanisms 3D printing mechatronics / robotic integration Human