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on electrochemical migration (ECM) failure mechanism and their implications for short-circuiting and functional degradation in power electronics components. The study will specifically examine gas corrosion mechanisms
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. This PhD project focuses on designing and testing a fully integrated, 32-channel neuromorphic BCI system. The system will be designed to scale efficiently to much higher channel counts in the future
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specifically examine gas corrosion mechanisms in connection with copper and silver, while investigation also will be carried out on specific electronic components such as chip resistors, IGBT substrates etc
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on a panel of selected test bacteria and culture methods underestimate the biocide tolerance of Campylobacter . Your primary tasks will be to: Collect existing data regarding the biocide tolerance
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to capture vPvM chemicals in water. Optimize effect-directed analysis and implement suitable in vitro assays Investigate operational waterworks and if possible test pilot-scale systems such as advanced
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within the League Secretariat. (2) To examine the often-contested formation of hierarchies within the League Secretariat via state-of-the-art digital approaches. (3) To investigate how processes
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collaboration with international partners at Politecnico di Torino and the University of Brescia, the student will test setups for concurrent acquisition of HD-sEMG using innovative electrode grids and various
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conversion. The project partner at TUM will focus on the materials production, stability characterization and the catalytic activity tests aspect of the project. The work at DTU will focus on the materials
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collaborate closely with a postdoctoral researcher responsible for in-situ fatigue testing under corrosive environments, and will participate in the 4D (x,y,z,time) analysis of the AM microstructure and crack