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Field
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assessment processes (i.e., Constructive Alignment) when the set of learning outcomes is non-predefined. We aim to contribute a set of validated design principles and solutions for various target groups and
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targets will include energy efficiency (optical, electrical), footprint and speed. The building block developments will follow a rigorous design flow to result in functional elements for the photonic
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forward transfer) in close cooperation with TNO, while also contributing to advancements in established MTP (micro-transfer printing) technologies. Initial work will target InP coupons with semiconductor
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(i.e., 3D-printing) techniques. The resulting mimics should ‘kick-start’ establishment of the target habitat-modifying species, after which the structures are allowed to biodegrade. Within the team
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imaging practices, RHYTHM targets key challenges in justification, optimisation, availability, and accessibility of imaging services. The RHYTHM project addresses key challenges in justification
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either the guarantees it can provide or in its level of automation. Lifting this limitation is a clear goal, with a potential target language being TLA+. - The advent of smart contracts, programs deployed
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automation. Lifting this limitation is a clear goal, with a potential target language being TLA+. The advent of smart contracts, programs deployed on blockchain platforms, promises to significantly change how
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immunoextraction of full proteins and SISCAPA-based peptide extraction, and develop targeted bottom-up proteomics methods using mass spectrometry. Additionally, you will engineer full proteins and signature peptides
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using synthetic ligands that are designed to target autoreactive B cells specific to autoantigens that cannot be cellularly expressed as CAARs. In this project, funded by the ZonMW Open Competition
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to push the current limit of cellular therapies towards precise cellular immunotherapy using synthetic ligands that are designed to target autoreactive B cells specific to autoantigens that cannot be