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Field
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, contributing to advances in energy storage, cultural heritage, and biomaterials. The MI group focuses on harnessing machine learning to accelerate the discovery, characterization, understanding, and optimization
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cancer, in a single location in Utrecht. Our institute aims to provide the highest level of care for all children with cancer, with optimal quality of life. The center brings together the best possible
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toxicity and X-ray dose optimization in cancer and healthy cells, 2) optimization of intratumoral administration, in vivo pharmacokinetics, biodistribution and toxicity assessment and 3) therapeutic efficacy
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obtained ScanNanoTreat (SNT) EIC transition grant. Specific tasks are 1) in vitro evaluation of nanohybrid toxicity and X-ray dose optimization in cancer and healthy cells, 2) optimization of intratumoral
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characterisation techniques; You will identify and implement optimal methods for the integration and testing of materials in real-life conditions; You will perform structure-property correlations and unravel
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to provide the highest level of care for all children with cancer, with optimal quality of life. The center brings together the best possible care and scientific research, creating a unique interdisciplinary
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strategies (e.g. predictive or machine learning approaches) to improve performance and reduce costs. Collaborating with industrial partners on design optimization, life-cycle analysis, and business case
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, and optimizing laboratory-scale chemical recycling experiments (e.g. hydrothermal treatment, solvolysis, or related processes) on textile waste streams. Developing and applying advanced analytical
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on design optimization, life-cycle analysis, and business case development. Publishing results in journals and conferences, and engaging with stakeholders through workshops and demonstrations. The position is
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for one of the most challenging waste streams in today’s society. What you do Designing, conducting, and optimizing laboratory-scale chemical recycling experiments (e.g. hydrothermal treatment, solvolysis