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of substrate interactions on structural integrity of biomolecules will be part of the research effort. The effort should aim to use precision microfluidic control to discover high-resolution strucutral
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provided but also groundbreaking research is conducted that pushes the boundaries of our understanding of human behaviour and societal structures. What makes our faculty unique is the diversity of research
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only education is provided but also groundbreaking research is conducted that pushes the boundaries of our understanding of human behaviour and societal structures. What makes our faculty unique is the
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, the influence of surface energy in 2D materials on liquid spreading and the effect of substrate interactions on structural integrity of biomolecules will be part of the research effort. The effort should aim
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soft materials, which often limit their precision, speed, and load-bearing capacity—all critical for real-world deployment. Addressing these limitations requires a new class of structures that combine
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the final morphology of the self-assembled interfacial structure. However, precise and quantitative characterization of such self-assembly dynamics has thus far proven to be a challenge due to the large
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for determining the final morphology of the self-assembled interfacial structure. However, precise and quantitative characterization of such self-assembly dynamics has thus far proven to be a challenge due to the
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and thus to preparing the LHCb experiment for future data taking. Organisation Since its foundation in 1614, the University of Groningen has enjoyed an international reputation as a dynamic and
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affordable and durable long-duration energy storage. The approach is to use hierarchical structures, i.e. complex material layers that can be optimized to specific battery chemistries and flow phenomena from
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computational model to capture the complex transport of gases, liquids, and charges in these porous structures, including the complex interfaces between them. Insights from the model will directly guide the