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- Prof. Dr. Ricarda Toerner
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environment We offer Mentoring and support for professional and personal development A stimulating, multicultural research environment with access to state-of-the-art facilities Opportunities
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poorly understood. This project seeks to address this question by examining the role of adaptive radiation and associated key innovations in the evolution of freshwater diatoms. By integrating morphology
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community. We develop and commercialize simulation tools, as well as measurement equipment for all-in-one electro-optical device characterization and for device stability assessment. Our R&D tools are used
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Your position Stacking and twisting atomically thin materials offers unprecedented control over their nanoscale magnetic, electronic, and optical properties. In this project, we will develop a novel
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of ceramic powder and the densification using the cold sintering processing method. The focus of the project is the development ferroelectric lead free ceramics sintered below 500°C and the analysis
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Participating in developing a novel imaging technique, low-energy electron holography, which will be applied for atomic-resolution imaging of 2D crystals, such as graphene, and nanocrystalline samples such as
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mechanisms developed will be validated in signal processing tasks for edge computing. Performance will be assessed in wearable domains and biomedical applications, with quantitative comparisons to conventional
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active sites), in vitro and in vivo enzyme screenings, electrochemistry, and machine learning-assisted directed evolution. As part of this project, you will collaborate closely with PhD students and
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microfluidic reactors Your tasks Design microfluidic reactors for operando studies of photocatalysts, including hydrogen evolution reactions HER, hydrogenation reactions, and decomposition of organic pollutants
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the physics of synthetic frequency lattices in fast-gain lasers. Job description Develop simulation frameworks for frequency lattices, mapping the interplay of RF modulation, gain recovery, and nonlinear