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solution processable metal oxides (classical and complex), halide perovskites (Pb-free, 2D and 3D) and, more recently, 2D materials and MXenes. We aim at the development of highly stable solar cells
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-based 3D printing. You will be responsible for organising and overseeing your own research and administrative tasks, including managing small‑scale project activities and coordinating multiple work
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filament extrusion for FDM-based 3D printing. You will be responsible for organising and overseeing your own research and administrative tasks, including managing small‑scale project activities and
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the research and development of a robotic concrete 3D printing system and other tasks that are assigned to you. Core Responsibilities: Perform the research and development of robotic concrete 3D printing systems
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, water, soil, and food. The objectives include the characterization of flexible substrates for use in sensors, the synthesis of nanomaterials as the active layer, as well as the application of 3D printing
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to: i) lead the design and creation of an experimental setup to examine fluid-structure interactions between 3D-printed models of deep sea sponges and ii) lead the formulation and analysis of finite
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electromagnetic components, along with heat transfer concepts. Familiarity with 3D printing or other rapid prototyping methods will also be considered as an advantage. Strong problem-solving skills, effective
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hearts Assist with human heart anatomical studies and imaging and developing high resolution computational models and 3D printed models to be used for device testing Work under general supervision but is
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diagnostics, and the scalable development of personalised therapeutics through the exploration of both synthetic tissue-like materials and living tissues prepared by 3D printing. MDLS brings together molecular
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focuses on methodological development in cryo-electron microscopy (cryo-EM), particularly in image reconstruction and 3D volumetric analysis of macromolecular structures. Rather than aiming to incrementally