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objectives or related spin-off objectives (e.g., based on the candidate’s research interest). Such spin-offs are welcomed, especially those that provide a new research angle to the listed objectives. We
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the problem is explicitly considered. In particular, it will investigate how to tightly integrate state-of-the-art sampling-based methods with state-of-the-art methods from numerical optimal control in a
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future through materials science. Read more: https://wise-materials.org What You’ll Do: Develop biohybrid living materials and devices based on photosynthetic organisms with responsive and evolving
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electronic systems. Areas of special interest are bioelectronics and neural interfaces, stretchable (semi)conductors, energy harvesting/storage, and actuators. Many of our projects are based on national and
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The Department of Systems Engineering (ISY) is central in various engineering educations both in terms of basic knowledge and applied courses. The research is mainly based on industrial needs and ranges from very
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of functional composite structures by truly integrated carbon nanomaterial-based sensors” (ISIMON), in which we aim to investigate various methods for structural health monitoring in composite hydrogen tanks. Due
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will work on a newly started interdisciplinary project focusing on exploring the AI based generation and use of synthetic data for improving predictions of energy performance of buildings as
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of the group include dynamic conducting polymer nanooptics, structural coloration and cellulose-based optics. Examples of application areas include dynamically tuneable metasurfaces, reflective displays, and
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in cybersecurity which have led to the creation of many new courses and training forms that are not always based on evidence and didactic principles. Therefore, we need now new knowledge about how we
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within material physics, primarily theory and modelling of atomically laminated materials. We will use open data bases and high-throughput simulations to explore a wide range of known and hypothetical 2D