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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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will perform technical work in support of physical experiments. You will help design and build measurement set-ups, take care of their maintenance and carry out repair and assembly work. The work
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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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in catalyst design. However, at present the active state of catalyst surfaces in plasma is unknown, limiting the impact of plasma catalysis by inhibiting the design of dedicated plasma catalysts
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students and have as an objective to design & execute and experiments to characterize the EUV-emitting plasma and understand it to develop optimized plasma recipes. You (and the rest of the team) will be
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several PhD students and postdocs and have as an objective to design & execute experiments to understand the deformation and fragmentation of laser-impacted thin liquid tin targets: what really happens when
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with a primary focus on designing new computational imaging and metrology tools for tomorrow’s nanolithography. In today’s rapidly evolving landscape, there is an unprecedented need for much higher
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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
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with the demands from the Amsterdam Universities. Terms of employment At the start of the traineeship your trainee plan will be set out, in consultation with your ARCNL supervisor. Contact info Prof.dr