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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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and metal oxide nanoparticles, development of functional inks, coating processes for textile substrates and pattern printing, devices fabrication, and advanced characterization of materials and systems
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department at IETR in inkjet-printed OTFT fabrication and is part of the ANR-funded SMOOTH (Stable Metal-free Organic transistOrs Thanks to Homojunction) project, which will start in February 2025 and run
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-metallic clusters that combine plasmonic and catalytic metals These clusters will be deposited with high control over size and composition using cluster beam deposition on morphologically engineered TiO2
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plasmonic nanogap cavities into a scanning probe technique. Plasmonic nanogap cavities are plasmonic nanoparticles placed few nanometers above a metallic surface. They can confine light to atomic dimensions
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EPSRC Centre for Doctoral Training (CDT) PhD in Digital Metal with Rolls-Royce (Enhanced Stipend) Development of Advanced Barrier Coatings for extreme environments Background Applicants are invited
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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