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in cold sintering of ferroelectric ceramic materials. This project focuses on the synthesis of ceramic powder and the densification using the cold sintering processing method. The focus of the project
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processes in flow batteries. This project focuses on developing physics-based models of electrochemical double layers and their spectro-electrochemical characterisation, contributing to fundamental
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in vivo technologies to understand, predict, and treat thrombosis? This is your chance! In this PhD project, the primary goal will be to explore the application of a catheter-based drug delivery
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prestigious MSCA doctoral network working on revolutionizing personalized medicine through cutting-edge in silico, in vitro, and in vivo technologies to understand, predict, and treat thrombosis? This is your
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technologies with CO2 emitters The Energy and Process Systems Engineering (EPSE) Group at ETH Zürich is looking for a doctoral student to design a decision workflow for assigning CO2 capture technologies
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exposure in a Swiss context. The proposed research will directly support the mission of the Swiss Federal Nuclear Safety Inspectorate (ENSI) to effectively monitor the safety reporting process, contributing
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of ceramic powder and the densification using the cold sintering processing method. The focus of the project is the development ferroelectric lead free ceramics sintered below 500°C and the analysis
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at ZHAW over a period of 36 months. We are seeking a highly motivated PhD candidate to join our research team working on mathematical modelling of electrochemical processes in flow batteries. This project
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process, we aim to enable precise and timely medication dosing based on sensor data. This breakthrough technology will provide real-time monitoring, precise and controlled dosing, and improved effectiveness
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, and this process is tightly regulated by a network of chaperone proteins. At the heart of this network is Hsp90, a molecular chaperone essential for the folding and maturation of at least 20% of all