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photochemistry is limited by how optical energy dissipates at the nanoscale. In plasmonic nanostructures, excitation produces both energetic charge carriers and significant heat, often degrading device performance
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University. The group focuses on fundamental studies of nanoscale electrical, optical, and plasmonic devices that operate based upon quantum mechanical principles, as well as the development of new nano- and
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–matter interactions at the nanoscale, with a particular emphasis on how plasmonic excitations modifies the electronic structure of adsorbed molecular systems. For an overview of our research activity
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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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to develop a breakthrough technology: an autonomous microfluidic system dedicated to detecting foodborne targets. Leveraging the plasmonic properties (LSPR) of antibody-functionalized gold nanostructures, you
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Website https://www.abg.asso.fr/fr/candidatOffres/show/id_offre/135770 Requirements Specific Requirements Interest or experience in Cell culture (CHO or Ecoli) in flasks and/or bioreactors Bioprocess
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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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of optical signals and for modeling optical metamaterials at the nanoscale based on lithograph-free, quasi-ordered arrays of plas-monic nanoantennas obtained with TDW/GLAD, development of plasmonic
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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