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effects of charge transfer (for example in cryptochrome and photolyase proteins) using time-resolved serial femtosecond crystallography at Free-electron laser sources. The project requires production and
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challenging chemical bonds (N–H, O–H, and C–H) under mild conditions. The project combines plasmonic materials, photoelectrochemistry, and ultrafast laser spectroscopy to investigate and control charge transfer
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terrestrial laser scanning data (ALS, TLS), satellite and aerial images. Collecting field data as well as participating in burning experiments may also be part of the work. The research team includes expertise
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sensing data includes airborne and terrestrial laser scanning data (ALS, TLS), satellite and aerial images. Collecting field data as well as participating in burning experiments may also be part of the work
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to tailor light absorption and light emission. The work will be carried out in collaboration with experts in nanoscale photonics/electronics, advanced lasers, nanoscale synthesis, and characterization
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the molecular structural dynamics of proteins and small molecules. We primarily use time-resolved X-ray scattering and diffraction experiments at free-electron laser sources. Our research combines biochemistry