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match the chemical, mechanical, and morphological properties of native bone. The role of the PhD student at Empa will be the development of synthesis processes using light-based 3D printing of hydrogel
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of ultra-long graphene nanoribbons (GNRs) encapsulated in hexagonal boron nitride (h-BN). The charge transport properties of these devices will be investigated using a combination of conductance and
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in biosensing, control switches, signal amplifiers and modulators, and high-performance photocatalysis. The conventional plasmonic materials include noble metals, e.g. gold, which was extensively used
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. The acquired and already existing database will be used to further develop ML models for the automated detection of clinically relevant markers. The goal is to develop the technique towards potential clinical
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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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, chemistry, physics, chemical engineering, environmental engineering, or a related field. The ideal candidate should have a passion for sustainability and an interest in using innovative materials to address
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nanoscience, with a strong interest in surface and spin physics. Your tasks You will play a key role in conducting systematic research on the quantum coherent manipulation of spins on surfaces. Particular