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Field
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physical methods, we tailor the structural and mechanical properties of bio-based materials to advance the potential of biopolymers in various applications. Key Responsibilities Fiber Spinning Lab
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systems as intelligent biomaterials and biosensors Assembling cells into multicellular structures and tissues (e.g. 3D printing of cells) Interfacing biomolecular systems with solid-state technology
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energy system optimization models including, e.g., reservoir productivity predictions, novel surface processes for CRM extraction, CO₂ reinjection, and reconversion of decommissioned oil wells Economic
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development, stack construction, system and component development, microscopy, spectroscopy) Presentation of findings at specialist conferences, publication in leading journals and active exchange with industry
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to drive the research forward. The network fellows will design and develop robust dispersive components based on sub-wavelength gratings waveguide structures to produce gratings for both intra-cavity and
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://www.enwat.uni-stuttgart.de/application/ Course organisation The programme is structured into two phases: First phase (one to two years): attending courses (at least 9 to 18 ECTS), preparing your research topic
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assist the research progress of doctoral students towards graduation without delays, thus ensuring an optimal graduation time of four years for PhD candidates. Because of the close ties with the research
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. Our doctoral candidates benefit from a structured training programme of courses and research seminars / colloquia, which provide them with the tools to complete their doctorate in line with the highest
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applications. The successful candidate will contribute to establishing and advancing the joint ALD laboratory, including the development of ALD rectors and process optimization for nitride based semiconducting
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Your Job: The electrocatalytic interface engineering department, led by Prof. Dr.-Ing. Simon Thiele focuses on the manufacturing, analysis, and simulation of functional materials to find an optimal