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since its discovery 150 years ago, due to a lack of model species 2,3. The candidate will use a combination of genetic tools to identify the molecular machinery responsible for chromosome fragmentation in
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study high quality perovskite materials, obtained by vacuum growth, and controlled in-situ with extremely sensitive characterization techniques. The candidate will conduct experiments based on optical
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procedure and composition of the catalysts on the structural characteristics, hence catalytic properties. From the gained knowledge, we will be able to control and tailor the critical properties in order to
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performance and portability through an informed implementation of parallel programming models and abstraction layers. - You will develop benchmarks and metrics to assess the performance, scalability, and
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exciton transport to the reaction center or to a donor-acceptor interface, respectively. Characterizing, modeling and improving exciton transport properties in molecular materials remain essential tasks in
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), and advanced high-pressure techniques. Experience with vacuum systems, lasers, spectroscopy, or numerical modeling (e.g., plasma or molecular simulations) will be considered an asset. The candidate will
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) that control the fate and the effects of trace elements and contaminants in the environment. To achieve the set objectives, the project will be supported by laboratory's instrumental facilities (including HPLC