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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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nanoparticles and reactions at the atomic-level by combining path-breaking advances in electron microscopy, microfabricated nanoreactors, nanoparticle synthesis and computational modelling. The radical new
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Your Job: At the Electrocatalysis department of Prof. Karl Mayrhofer, we offer a PhD position within the team Nanoanalysis of Electrochemical Processes. Lead by Dr. Andreas Hutzler, the team is
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the project funded by the Swiss National Foundation , we would like to unveil the mechanism of FLA for sintering wide-band gap ceramics, with a particular focus on Li-containing oxides that can be used as
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workflow for the imaging of Mg-LPSO alloys via X-ray nanotomography followed by higher resolution imaging of the identified regions of interest using transmission electron microscopy and atom probe
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Multicellular organisms rely on differential gene expression to create cellular diversity. Precise gene regulation is crucial, as failures can lead to reduced fitness, developmental defects, and disease
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-5035 (2006)). However, when improperly regulated, R-loops can lead to replication-transcription conflicts, DNA damage, and genome instability, contributing to diseases such as cancer and
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innovative employers in the region. With more than 6000 employees from 100 different countries, we are helping to build tomorrow's world every day. Through top scientific research, we push back boundaries and
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assays (e.g., high-throughput atomic force microscopy). This position offers the opportunity to work in a dynamic and multidisciplinary environment, contributing to a project with both fundamental
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; engaging in cutting-edge research with access to state-of-the-art facilities, including low-phototoxic live-cell microscopy, super-resolution microscopy, advanced single-cell sequencing technologies and mass