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the Master's programme "Engineering Nanoscience" at LTH. A significant part of the research at our division is in the area of semiconductor quantum devices, where we develop new methods and
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experimental approach to systematically infer protein-semiconductor hierarchies materials and design de novo hierarchical architectures with atomic precision. The postdoctoral project aims to design de novo
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approach to systematically infer protein-semiconductor hierarchies materials and design de novo hierarchical architectures with atomic precision. The postdoctoral project aims to design de novo proteins
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the area of semiconductor quantum devices, where we develop new methods and functionalities for quantum technology. The department hosts the ERC Consolidator Grant QPHOTON (PI Ville Maisi), which aims
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) Research environment At the Laboratory of Organic Electronics (LOE) we explore electronic and optical properties of organic semiconductors, biomaterials from the forest, and hybrid organic materials. We
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focus on the 7–20 GHz frequency range and will involve both RFIC/CMOS and MMIC implementations. You will have access to state-of-the-art semiconductor technologies and world-class measurement facilities
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machine learning models in simple, standalone devices that are capable of advanced processing. Building on our work on solution-based neuromorphic classifiers (https://doi.org/10.1002/advs.202207023
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semiconductor technology. In particular, we develop and characterize new generations of RF-electronics based on III-V technology to be used as amplifiers and switches. Part of the effort is related