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structures, as well as environmental factors. Using these new models, you will probe how defects affect the electronic and mechanical properties of the system, and assess the effect of ambient environment
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predict interfacial structures for your 2D material/oxide materials interfaces, directly taking into account disorder and non-ideal structures, as well as environmental factors. Using these new models, you
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degree in physics, chemistry, or materials science or equivalent, to satisfy the Dutch university requirement to enter a PhD program. Previous experience with lasers is not required but it would be a plus
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surfaces in plasma is unknown, limiting the impact of plasma catalysis by inhibiting the design of dedicated plasma catalysts. This PhD position links surface science and plasma catalysis, aiming
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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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catalysis by inhibiting the design of dedicated plasma catalysts. This PhD position links surface science and plasma catalysis, aiming to understand the active state of a surface live during plasma exposure
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13.5nm wavelength. The recent revolutionary introduction of EUV lithography (EUVL) was the culmination of several decades of collaborative work between industry and science – a Project Apollo of the
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Interaction group focuses on developing the science and technology of new optical and optical/acoustic hybrid metrology modalities for nanolithography applications. Projects include ultra-high frequency