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of microorganisms in fluids. Living systems such as bacteria or algae exhibit remarkable capabilities: they swim, adapt, interact, and self-organize into dynamic patterns. Understanding and replicating these life
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/microrobots that can move and interact autonomously in 3D environments, mimicking the complex dynamics of microorganisms in fluids. Living systems such as bacteria or algae exhibit remarkable capabilities
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understand how specific antivirals works. These antivirals disturb the structure and dynamics of viruses and the result is that the viral particles are not able to infect anymore. By specifically looking
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microswimmers/microrobots that can move and interact autonomously in 3D environments, mimicking the complex dynamics of microorganisms in fluids. Living systems such as bacteria or algae exhibit remarkable
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of these disease causing agents, we will also be able to better understand how specific antivirals works. These antivirals disturb the structure and dynamics of viruses and the result is that the viral particles
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Manufacturing (AM) is increasingly applied in repair and remanufacturing; however, integrating AM into supply chains demands new models and methods. In this PhD project, you will: develop dynamic supply chain
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understand how specific antivirals works. These antivirals disturb the structure and dynamics of viruses and the result is that the viral particles are not able to infect anymore. By specifically looking
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of Arts The Faculty of Arts is a large, dynamic faculty in the heart of the city of Groningen. It has more than 5000 students and 700 staff members, who are working at the frontiers of knowledge every day
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Are you interested in exploring how firms can collectively contribute to decentralized, sustainable energy systems? Are you curious about how digital platforms connect businesses with distributed
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in a 5th generation district heating network. The key weakness of most models currently available and in use is their oversimplified description of physical, dynamic and nonlinear behavior