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: minnaardgroup.nl). The project is entitled “selective modification of unprotected carbohydrates.” Carbohydrates (sugars) are ubiquitous in the living cell and fulfill essential roles. Carbohydrates are also used as
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for treating damaged load-bearing cartilage by integrating clinically validated cell therapy with advanced biofabrication techniques. Our goal is to establish a single-stage treatment that enables efficient
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battery (BLIB) with fast charge/discharge (1 min) and high energy density. Working with three PhD candidates and one postdoc, you will help synthesise a conductive anode within a bicontinuous emulsion, coat
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is taping out. The core challenge is to co-design algorithms and architecture so that robustness, security, and energy efficiency are all first-class citizens. As the PhD candidate
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characterisation studies. The candidate will design and construct a new cell testing setup, building off existing setups in our lab, that will allow single cell testing at high temperatures (450-1000 oC) and
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on Education and AI (NOLAI). You will create methods to predict energy consumption, create energy labels for algorithm scalability, and guide implementers in choosing more efficient algorithms. Ready to make AI
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consumption, create energy labels for algorithm scalability, and guide implementers in choosing more efficient algorithms. Ready to make AI more sustainable? Apply now! The goal of your PhD project is to
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the integrated effects of deviant OA risk gene expression in cartilage with the aim to develop effective disease-modifying therapies. As a PhD student, you will play a central role in this process by building
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timescales (ps to ns) in materials that are very relevant to the energy-transition? Are you looking for a challenging project involving semiconductor synthesis and advanced ultrafast laser spectroscopy? Would
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of amphiphilic molecules. However, other scenarios are also possible, based on colloidal building blocks. This PhD project will experimentally investigate plausible pathways to protocell formation and evaluate