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for spatiotemporal wound monitoring and patient-specific, timely wound treatment. Your tasks In this PhD project, you will develop sensors integrated in adaptive wound dressings. The sensors will be designed by
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Chemistry group at Empa with high scientific excellence that has recently developed novel covalent adaptable networks (CANs) based on phosphorus chemistry, thereby enabling fire protection and recyclability
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the implementation of mechanical testing combined with a variety of sensors to follow changes in the structures. You will use a range of surface analytical techniques to characterize the detected changes. You will
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mechanisms in wooden structures. This will require the implementation of mechanical testing combined with a variety of sensors to follow changes in the structures. You will use a range of surface analytical
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improve clothing design or indoor air conditioning strategies. Currently, we rely at Empa on the use of thermal manikins that have multiple sensors installed to predict heat stress in several environments
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, multi-energy grids, and the integration of renewable energy and storage systems Your tasks In the framework of MSCA Doctoral Network (DN) Consumer Energy Demand Flexibility in Electricity Use (CoDEF
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Attractive employment conditions of the ETH Domain An international network and contacts to academic and industrial partners Position starting from July 2025 or upon agreement. We live a culture of inclusion
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based on a double network hydrogel that eliminates not only the need for donor tissues, but also for sutures by simply adhering directly to corneal tissues under wet conditions. In the frame