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, innovation and scientific advice. We offer a rewarding and challenging job in an international environment. We strive for academic excellence in an environment characterized by collegial respect and academic
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Job Description Join a young research group dedicated to transforming materials discovery from empirical exploration to predictive design. Our research program builds on a synergy of high-throughput
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translational potential. Key tasks and responsibilities Design and fabricate microneedle-based transdermal delivery systems Develop and characterize electrochemical sensors for L-DOPA detection Engineer and test
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), where tiny III–V heterostructures are integrated into silicon nanocavities at optical field maxima Project B: Theory, design and experimental characterization of nanobeam EDC lasers This project aims
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, or sociology. The PhD student will be involved in all aspects of the research, from conception, execution, analysis, publishing, and public dissemination. The ideal candidate therefore has a high academic level
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working towards the chemical synthesis of defined oligosaccharides related to the plant cell wall glycan RG-II. We are looking for a creative mind with excellent practical lab skills to design and execute
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that are deemed qualified. The assessment of the candidates will be made by Carsten Baum. We offer DTU is a leading technical university globally recognized for the excellence of its research, education, innovation
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strong societal impact. Your responsibilities will follow the project scope described above and include laser design and development, experimental nonlinear optics, laser and frequency-comb
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PhD scholarship in Mid-Infrared Frequency Comb Technology for High-Sensitivity Sensing – DTU Electro
-sensitivity sensing applications. Your responsibilities will follow the project scope described above and include laser design and development, nonlinear frequency conversion, frequency-comb stabilization and
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The PhD project aims to design, construct, and evolve new metabolic pathways for producing and degrading halogenated metabolites and related compounds in Pseudomonas putida . These engineered strains will