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-based prediction and design of new, low-dimensional magnetoelectric materials. Low-dimensional materials are highly desirable for efficient device integration, and the intrinsic coupling between electric
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that makes an impact. All that's needed is a place where ideas have the space to meet and grow. That's what we've created – and you are invited. Change starts here! The Department of Design is located
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research plan) Strict compliance with the MSCA mobility rule that the researcher must not have resided or carried out his/her main activity (work, studies, etc.) in the host organisation's country
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design, data collation and analysis, as well as write and publish scientific papers in collaboration with the research team. The postdoc is also expected to contribute to team activities, assist in student
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group we are experts in light interaction with biological tissue and living organisms. Furthermore, we have a strong tradition of bringing realistic photonic instrumentation into real world scenarios, in
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molecular questions in biological systems, and study biological and designed proteins using a combination of classical and advanced techniques including optical and NMR spectroscopy, surface plasmon resonance
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empirically validate how GenAI agents can assist software developers in tasks such as code generation, documentation, optimization, and human-AI interaction workflows. As a postdoctoral researcher, you will be
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to develop novel robotic systems that are characterised by advanced autonomy for improving the ability of robots to interact with the surrounding environment and humans during the execution of specific tasks
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for probing and sensing at the nanoscale using optical tweezers. You will contribute to both technical innovation --such as enhancing parallelized detection systems and integrating them with complementary
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numerical methods used to design wind turbines and understand turbulent combustion in jet engines, this research aims to address critical computational challenges in simulating the physical dynamics