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microscopy and nanomanipulation techniques to record the live construction of such a virus, at the nanoscale. By unveiling how viruses are built up, we will not only provide fundamental understanding
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Infomatter group at AMOLF. The SMIP project aims at revolutionising computing by developing adaptive, smart materials that combine memory and learning directly within their structure, uniting theory and
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construction of such a virus, at the nanoscale. By unveiling how viruses are built up, we will not only provide fundamental understanding of these disease causing agents, we will also be able to better
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materials that combine memory and learning directly within their structure, uniting theory and experiment. These materials adapt their computations over time, reducing energy use and improving efficiency
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requirements in conflict zones and other industrial contexts; investigate optimal levels within the product structure for deploying AM in repair and spare parts support; integrate forward and reverse flows in
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reproducible sample preparation method for cryogenic electron microscopy (cryo-EM). You will fabricate microfluidic mechanical probes with phase guides, develop controlled dispensing of femto-liter volume
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of the system and requirements on the specific (main) components of the heating system. Research and develop key sub-components most crucial for the design. Help prepare in the construction of such an electron
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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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2 Sep 2025 Job Information Organisation/Company University of Twente (UT) Research Field Computer science » Programming Engineering » Electronic engineering Engineering » Materials engineering
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Delft, and CryoSilico cryo-EM sample supports from DENS solutions to develop a novel reproducible sample preparation method for cryogenic electron microscopy (cryo-EM). You will fabricate microfluidic