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two-dimensional (2D) materials such as graphene, α-RuCl3 , and transition metal dichalcogenides (TMDs). This PhD project is highly focused on methodology, resolution enhancement, and reproducibility. It
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two-dimensional (2D) materials such as graphene, α-RuCl3, and transition metal dichalcogenides (TMDs). This PhD project is highly focused on methodology, resolution enhancement, and reproducibility. It
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of the devices in the state-of-the-art DTU Nanolab cleanroom facilities using quantum dot imaging, lithography, etching and metal deposition. In both projects, the overall objective is to increase the efficiency
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) and Technical University of Denmark (DTU) aims at understanding and designing noble metal clusters in the non-scalable regime to enable exceptional catalytic performance for e.g. methane and ammonia
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induced defects and the resultant fatigue life of metal additive manufactured samples. The project is part of a Villum Investigator grant titled “Microstructural engineering of additive manufactured metals
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of polaritons in state-of-the-art nanophotonic systems including two-dimensional materials, high-index dielectrics, topological insulators, organic molecules, noble metals, and their combinations. Emphasis will
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Development/upgrading solid oxide cell test setups for advanced electrochemical characterisation, including development of metal test houses Development of dedicated circuitry and analysis software
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that respond to real-time electricity inputs and operational constraints. Key Research Objectives: Experimental Research on Electrolyzers: Design, operate, and analyze lab-scale Alkaline and PEM electrolyzers