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getting more and more complex. In this PhD project, you will investigate and design 2D materials with applications in energy storage, semiconductors, and nanolithography. Until now, most research studies
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industry and science – a Project Apollo of the digital age. EUVL is powered by light that is produced in the interaction of high-energy CO2-gas laser pulses with molten tin microdroplets. The use
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reactions making direct use of electrical energy. The interaction of plasma-activated species with a catalyst enhances the efficiency of these reactions. However, at present the active state of catalyst
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will investigate and design 2D materials with applications in energy storage, semiconductors, and nanolithography. Until now, most research studies have been limited to the understanding and optimization
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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
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digital age. EUVL is powered by light that is produced in the interaction of high-energy CO2-gas laser pulses with molten tin microdroplets. The use of such lasers leads to low overall efficiency in