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to produce restoration designs for multiple ecosystems’ at Utrecht University and the Royal Netherlands Institute for Sea Research, you will create ecosystem-specific, mass-produceable structures
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Supervisors: Professor Richard Hague1 , Professor Chris Tuck1 , Dr Geoffrey Rivers1 (1 Faculty of Engineering) PhD project description: Inkjet printing allows multiple materials to be 3D-printed
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for small patches of skin. In this project we will employ the use of a 3D printer to produce prototype devices which could be attached onto any topical product to adjust the nozzle size, and thus, the FTU
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project description: Inkjet printing allows multiple materials to be 3D-printed simultaneously, useful for printing functional devices. Discovering the interactions of these materials and how to leverage
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identify optimal hierarchical shaped pore- and electrode-structure to encounter optimum electrolyte as well as electrical flow. Prototyping of the identified structures via stereolithographic, 3D printing
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well as electrical flow. Prototyping of the identified structures via stereolithographic, 3D printing and textile techniques like tufting, machine-based embroidery techniques or non-interlaced 3D pre-forming
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with High-Resolution Seismic Interpretation”. This project focuses on core analysis and 3D seismic interpretation of turbidite sandstones in the Draupne Formation, Tampen Spur area, Northern North Sea
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hierarchical shaped pore- and electrode-structure to encounter optimum electrolyte as well as electrical flow. Prototyping of the identified structures via stereolithographic, 3D printing and textile techniques
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hierarchical shaped pore- and electrode-structure to encounter optimum electrolyte as well as electrical flow. Prototyping of the identified structures via stereolithographic, 3D printing and textile techniques
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Our Research We study the origin and evolution of cell type programs and associated genome regulation mechanisms: transcription factors, 3D chromatin architecture, histone modifications, and more. To