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elements (and second-phase particles) on stainless steel properties. This step is essential for the introduction of green steels in the market segment exploiting such steels. This work will consist
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-organization of active particles. Fabricate and characterize light-driven microswimmers. Use advanced optical microscopy and particle tracking to analyze their motion and interactions. Investigate emergent
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, biophysics, and materials science. In this PhD project, you will: Develop an experimental platform to study 3D self-organization of active particles. Fabricate and characterize light-driven microswimmers. Use
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mechanisms of virus self-assembly. RNA-containing viruses are complex, nanometre sized particles with at their centre proteins covering the RNA. We want to find out how these complex assemblies are built up
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are fascinated by every aspect of how the world works, be it elementary particles, the birth of the universe or the functioning of the brain. The Institute of Physics (IoP) of the University
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particles have many unique shapes not encountered for bacterial and eukaryotic viruses. We focus on the infection strategies of archaeal viruses and study the molecular mechanisms underlying essential steps
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of how the world works, be it elementary particles, the birth of the universe or the functioning of the brain. The mission of the Informatics Institute (IvI) is to perform curiosity-driven and use
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reactors in relation to process performance; Perform and Analyse Particle Image Velocimetry data in shear controlled continuous experiments; Developing guidelines for controlling negative effects of SACs in
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. The main objective of this project is to unravel the molecular mechanisms of virus self-assembly. RNA-containing viruses are complex, nanometre sized particles with at their centre proteins covering the RNA
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superposition and entanglement to “large” objects that we usually think of as classical particles. This is exactly what you will do at TU Delft. As a PhD student in our teams, you will investigate how