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Field
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, neural interfaces, energy harvesting and storage, and optics. From AI modelling of materials and biological complexity to the design of multifunctional micro- and nano systems, we combine theory
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for targeted protein degradation with relevance to cancer biology and therapy. Your responsibilities will include: Designing and conducting biochemical and cell‑based high‑throughput screens Structure‑guided
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center for advanced research and one of Europe’s leading molecular biology laboratories, driving innovation in the life sciences. This creates an exciting platform with state-of-the-art infrastructure
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, we will identify optimal fast-charging parameters using data-driven optimization methods. (2) We will first design an optimal control strategy on laboratory three-electrode cells using anode potential
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innovation in the life sciences. This creates an exciting platform with state-of-the-art infrastructure to conduct high-quality research, foster collaborations with other Swedish and international universities
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involve dense research activities in the area of designing, experimenting and theoretical development with the following combined research areas linked with National, European and Worldwide R&D Projects
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Duties Practical work tasks are to design, synthesize, and characterize organic dyes. These research tasks are performed in close discussion with other group members, this to build molecules that can
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phase-matching regimes, design innovative gas targets and laser-driven generation geometries to increase XUV yield. Successful achievement of these goals promises to revolutionize XUV light generation in
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environment focusing on engineering product development, innovation capability, and advanced engineering design, with strong links to industry and societal challenges. The research environment is characterised
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tasks and how they are affected when various recruitment and HR functions become AI-based. In addition, it studies how the entry of AI changes how we should design different forms of training and