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to deliver bioinks in vivo. By developing organoid culture and biofabrication techniques, you will have a major impact on both developmental biology and regenerative medicine. You will be performing cutting
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-Enhanced Biomaterials for Next-Generation Skeletal Repair Our goal: To develop next-generation biomaterials that actively stimulate bone regeneration by delivering molecular instructions directly to cells
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Innovation: Exploiting and developing NDT technologies tailored specifically for Dutch half-joint geometries. Data Analytics: Developing advanced analysis methods to identify and characterize local damage
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within the Delft Institute of Applied Mathematics (DIAM) at Delft University of Technology (TU Delft) is offering a full-time PhD position in harmonic analysis. The project will focus on developing
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(such as data annotation, online content creation, or software testing) provide chances for social enterprises – i.e. mission-driven business that prioritize societal impact above maximizing profit, such as
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. Together we aim to develop the technology to create a low-loss and scalable system for dynamic control of light. This technology could have an impact on fields such as measurement science, LiDAR, adaptive
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, you will develop innovative small area estimation methods to produce high-quality composite SDG indicators, combining survey, census, and non-traditional data sources such as web and satellite data
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, you will generate and study human induced pluripotent stem cell (hiPSC)-derived cardiomyocytes and engineered cardiac tissues (ECTs). You will develop patient-specific cardiac models to identify
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project, you will develop a 3D measurement technique and apply it to study emulsion behaviour (such as coalescence and phase inversion). The first half of the project will focus on the development
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the future of work in the built environment? Join us to co-create adaptive labour market futures for the digital and energy transitions. Contribute to long-term scenario development and future-making