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Field
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, creating a diverse and dynamic 3D environment. We are looking for one or more enthusiastic and talented PhD candidates to conduct research in the general area of 6G wireless technologies along the following
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Raman systems. Demonstrated hands-on experience with rapid prototyping (PCB design, laser cutting, 3D printing) and middleware development to interconnect measurement systems. Experience integrating
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and motion of hand captured by 3D/4D scanning to the mechanics of the textiles for exoskeleton design. 2. Build and experimentally evaluate textile exoskeletons using lab-based motion capture, pressure
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diabetes. Your job Biofabrication is a relatively young field in which 3D fabrication technologies are used to generate living tissues by precisely patterning cells and biomaterials. In this project, funded
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will combine 2 and 3D cell culture systems, gastruloids development, FACS drug screening and next-generation sequencing with investigation of patient samples, to identify and characterise targetable
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-material capability with a suitable closure model; (2) improved strategy for interface tracking/capturing; (3) very high-speed scenarios with use of nonlinear Riemann-solvers. If time allows exploratory 3D
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also a pioneer in in situ 3D ED studies, as will be important in this project. More about us at our webpage . Position You will design and fabricate lithographically etched sample supports and MEMS
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for culture and creative domains. These domains may include sound, music, visual art, 3D graphics, movement, or multimodal combinations thereof. The research will employ a mixed-methods approach: the search
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Tomography (CT) – two key NDT techniques used to inspect metallic and composite materials. These methods generate large 3D datasets that can be difficult for human experts to analyze manually, increasing
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match the chemical, mechanical, and morphological properties of native bone. The role of the PhD student at Empa will be the development of synthesis processes using light-based 3D printing of hydrogel