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will get the opportunity to: develop skills in design of protein probes targeting specific complexes; produce and purify proteins in Escherichia coli and HEK293 cell cultures; determine structures of
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approach is to apply foundational techniques grounded in logic, semantics, and verification. This work takes place within the CYCLIC project: Cyclic Structures in Programs and Proofs, a collaboration among
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bring a critical, science-driven mindset, combined with a strong drive to explore and understand complex systems. You are enthusiastic about problem-solving, enjoy tackling engineering challenges, and are
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complex systems and their role in the evolution of life. One of the key features of life is the presence of its essential molecules, such as amino acids, proteins, sugars and DNA, as a single mirror image
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from single bioinoculants to complex synthetic microbial communities (SynComs). Join us as PhD candidate and contribute to a multidisciplinary effort at the intersection of microbiome ecology, genomics
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focus on understanding the emergence of protocells—primitive compartments thought to have exhibited essential features of modern cells. These structures likely played a critical role in the transition
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-world networks with different structural properties. During the PhD, the successful candidate will work on several subprojects and analyse random graph models and complex networks by probabilistic tools
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an interdisciplinary approach, encouraging collaboration between researchers from different fields to drive innovation and address complex scientific challenges. The research programme of the Feringa group focuses
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bridges as components in new bridge and building structures, thereby contributing to a fully circular economy. The central question for this PhD study is: Can we reuse steel bridge members in new structures
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matter and smart materials? Then come and join our team as a PhD candidate! Materials that spontaneously ’morph their structure and optimise themselves to particular functions will open entirely new