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This fully-funded 4-year PhD project at the Department of Industrial Design aims to examine how the dynamic degrees of vulnerability shape and influence the design process of technology to support
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academia and industry? Are you inspired to push the boundaries of design principles in high-end technology applications? Are you fascinated by the potential of metamaterials to outperform conventional
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this context, the design and the coordination of these components is of paramount importance to achieve a robust and sustainable energy grid operation. Within this project, we aim at developing a digital-twin
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Are you eager to use your math skills to design optical systems for sustainable high-tech devices for billions of people? Irène Curie Fellowship No Department(s) Mathematics and Computer
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Are you interested in sustainable structural design to reduce the CO2 footprint of buildings? Are you passionate about bio-based composite material systems and want to enhance their use in
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literally?!! In this project, we aim to develop numerical tools to design optical surfaces that transform a source of light into a desired target. To tackle the nonlinear differential equations involved
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. Antenna integration using novel integrated circuit (IC) packaging technologies as well as antenna-electronics co-design are focus areas for this research. Also basic radar system design, e.g
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objective will be to design, implement, and test various concepts of sweat sampling strategies. Several challenges must be addressed like efficient sweat collection, rapid response, continuous flow, and
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polymerized and depolymerized states, using energy efficient processes. The key is incorporation of suitable degradable functional groups or smart monomers into the polymers in their design stage (”design for
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Irène Curie Fellowship No Department(s) Industrial Engineering and Innovation Sciences Reference number V39.7559 Job description Rapid advances in sensors, artificial intelligence (AI), and the