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-of-the-art equipment for the extraction, purification, crystallization, and characterization of O2-sensitive enzymes. Internal collaboration at the Institute for Structural Biology (IBS) and within
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this control experimentally in carefully selected prototypical magnetic materials. Job description The work will involve synthesis and growth of single crystal samples, as well as their characterization with X
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interaction studies (EMSA, BLI, HeliX) Structural studies (crystallization of proteins and protein–DNA complexes; preparation of cryo-EM samples) Participation in synchrotron data collection Processing
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). You will conduct research in one or more of the following topics Crystallization of polymers Analysis of the structure of semi-crystalline polymers Mechanical and thermal properties The work involves
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environment. The rare combination of in-house crystal growth expertise, advanced materials development, and world-leading know-how in visible solid-state lasers combined with a state-of-the-art laboratory
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of CuBi₂O₄ can be significantly enhanced through targeted control of its crystal chemistry, interfacial charge separation, and surface stability. The proposed research will (i) establish the fundamental
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Starrydata2). The work will include the implementation of machine learning models (neural networks, random forests, SISSO), generative approaches for predicting crystal structures, the use of machine learning
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-based methods for discrete sequences (e.g., DNA, RNA, amino acid, and crystals) remain fundamentally underdeveloped. Existing approaches rely on ad hoc corruption mechanisms that lack theoretical
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phosphonate linkers preparation and crystallization of new MOF structures advanced synthetic methods, including work with air-sensitive compounds (Schlenk techniques) comprehensive characterization of materials
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the properties of these thin films. The growth of the materials will be done via molecular beam epitaxy, where we can control crystal properties down to single atomic layers. Growth control and investigation