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. This aggregate will constitute a proof of concept for new metallic electrodes directly printed within a host material using a technique similar to 3D printing. The first step will be to synthesize the nanowires in
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Occluding Device Sizing for LAAC in 3D TEE ( AUTO-LAAC), code LCF/TR/CI25/56020040, CaixaImpulse Innovation 2025 , funded by the “la Caixa” Foundation. Scientific Area: Electrical Engineering, Electronic
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Occluding Device Sizing for LAAC in 3D TEE ( AUTO-LAAC), code LCF/TR/CI25/56020040, CaixaImpulse Innovation 2025 , funded by the ‘”la Caixa” Foundation. Scientific Areas: Electrical Engineering, Electronic
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the field of ceramic 3D printing by Digital Light Processing method. Moreover, basic knowledge in CAD designing and defect fractography, data analysis and similar are necessary. Requirements: PhD in materials
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preparation, Committed to personal development and updating of knowledge and skills, Hands-on experience in work with genetic mouse models, organoids, live cell imaging, 3D immunofluorescence will be viewed
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ideal condition to support 3D cell growth via cell-microgel scaffold formation and additive manufacturing. This highly interdisciplinary position will cover material synthesis, microgel production via
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curriculum, including hands-on instruction with digital fabrication tools and software such as 3D printers, laser cutters, CNC mills, 2D vector design tools, and 3D CAD software. ● Serve as a peer-level
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filaments on the properties and observables of the cluster. Where to apply Website https://www.uam.es/uam/investigacion/ofertas-empleo/contrato-conjuntaenero2026r… Requirements Research
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complexity of in vivo patient tumors. This project aims to overcome that limitation by extending our high-throughput metabolic fingerprinting platform into 3D cancer models such as spheroids and organoids. By
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research activities including: the running and troubleshooting of experiments to study of invasion specific protein activity in 3D cultures and in vivo before and after targeted therapies have been applied