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Surface reactions on metal model catalysts in plasma environment Activation of molecules in a plasma can form the basis for efficient chemical reactions making direct use of electrical energy. The interaction of plasma-activated species with a catalyst enhances the efficiency of these reactions....
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Materials are ubiquitous parts of our everyday life and as technologies keep pushing boundaries, the search for new functional materials is getting more and more complex. In this PhD project, you will investigate and design 2D materials with applications in energy storage, semiconductors, and...
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This fully funded PhD position lies at the interface between fundamental physics and industrial application. It is part of a fully funded Consolidator Grant from the European Research Council titled “Next-Generation Light Source: Driving plasmas to power tomorrow’s nanolithography...
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Are you interested in simultaneously unraveling the fundamentals of wear and contributing to the solution to wear-related challenges in computer chip production? At the Advanced Research Center for Nanolithography, we work with ASML on new processes to fabricate the electronic chips that power...
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Surface reactions on metal model catalysts in plasma environment This PhD position connects the two active research fields of surface science and plasma chemistry. The project aims to understand the active state of a surface live during plasma exposure using a unique methodology developed by our...
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In this project you will work on expanding our capabilities to perform optical metrology in the terahertz spectral range, by helping to design, build and apply a terahertz time-domain spectroscopy microscope. The microscope will use femtosecond lasers to generate and detect terahertz pulses...