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Field
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antigens for broad-spectrum protection; exploring the optimal (viral) vector vaccine platforms for antigen delivery; developing advanced serology tools to track chicken immunity against IBV; collaborating
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these concepts into optimization models aimed at transport planning and mobility systems co-design, as part of the transition towards more sustainable and just mobility futures. Specifically, the postdoc will
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needed to operate the timetable. In this project, you will further develop algorithm(s) for strategic railway timetabling optimizing service quality for railway passengers. The goal is to be able
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biosensor development. You will work on developing and optimizing pore-forming toxins (PFTs) for selective cancer cell targeting. This will involve expressing and purifying PFTs, as well as performing
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to stimulate biological neurons cultured on top of them. You will develop and optimize these integrated photonic devices, ensuring their precision and functionality for neural stimulation. Additionally, you will
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Postdoc researcher to optimize the design and control of electromagnetic actuator Job description Mechatronic systems require continuous advancements to meet the growing demands for precision and energy
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. The methods developed in this project, utilizing data and forecasting, will enable the deployment of optimization techniques to guide investment decisions in both road and public transport networks (network
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candidate who works on several aspects of heat exchanger aerodynamics: Low-fidelity aerodynamic models are to be developed to allow for sizing studies, for aerodynamic optimization, and for system trade-offs
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. This includes: Exploiting new deposition schemes and parameters of reactive magnetron sputtering, aiming for optimal piezoelectric thin film materials performance. Developing the understanding
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vaccine development and immunity; designing novel antigens for broad-spectrum protection; exploring the optimal (viral) vector vaccine platforms for antigen delivery; developing advanced serology tools