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, spanning from the investigation of surface plasmons and the design of nano-structured catalyst materials to density functional theory calculations to understand surface reactions and materials on an atomic
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cutting-edge research by using its strong interdisciplinarity; it combines both experimental and theoretical expertise, spanning from the investigation of surface plasmons and the design of nano-structured
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in clinically relevant environments. Key work assignments include: Design, fabrication, and optimization of high-performance plasmonic nanostructures and SERS substrates for sensing in complex
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interdisciplinarity: it combines both, experimental and theoretical expertise, spanning from the investigation of surface plasmons and the design of nano-structured catalyst materials to density functional theory
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from the investigation of surface plasmons and the design of nano-structured catalyst materials to density functional theory calculations to understand reaction kinetics. It provides an international and
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, spectroscopy, and biomedical validation in clinically relevant environments. Key work assignments include: Design, fabrication, and optimization of high-performance plasmonic nanostructures and SERS substrates
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microscopy and spectroscopy to investigate their unique electronic, structural, and plasmonic properties. Project 2: Exploring the synthesis of metallene layers sandwiched between SiC and graphene
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and designed proteins using a combination of classical and advanced techniques including optical and NMR spectroscopy, surface plasmon resonance, light and X-ray scattering, cryo-electron and