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We have an open position for you who would like to work with microscopes (optical and FIB-SEM) within the structural characterisation of metallic and polymer materials. The department of materials
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an interface between biomolecules and semiconductor nanostructures. The aim of the project is to detect single macromolecules using optical signals. The tasks include: Supporting ongoing projects aiming
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: Jin et al, Nat. Cell Biol ., 2017; Wang et al, Development, 2017 ; Wang et al, Sci. Rep., 2018 ; Tual-Chalot et al, Circ. Res., 2020; Krimpenfort et al Exp. Eye Res. 2023 , Guimaraes et al, Science
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Description of the workplace The research at the Division of Atomic Physics is centered on different applications of optics and lasers, including atomic and molecular physics with ultrashort light
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advanced eye tracking and motion capture), and intracranial electrophysiological (EEG) recordings in neurosurgical patients. We offer an engaging and international research environment where you get an
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tools that allow to study the electrical and electrochemical properties of conjugated polymers, as well as their nanostructure and optical properties. Relevant techniques include FTIR, UV-vis spectroscopy
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regenerative medicine. The methodology includes classical developmental biology approaches blended with single cell transcriptomics, 2D sequencing and 3D-reconstructions of tissues and organs based on optical
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in the context of metabolic disease. For this, a novel platform based on transplantations of organotypic cultures into the anterior chamber of the eye of recipient mice is to be used. The recruited
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and collaborative atmosphere. We perform both curiosity-driven and applied-research in the areas of optoelectronics, silicon photonics, and fiber-optic systems. We enjoy a state-of-the-art laboratory
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dynamic conducting polymer nanooptics, structural coloration and cellulose-based optics. Examples of application-areas include radiative cooling, dynamically tuneable metasurfaces, and reflective displays