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research units, ICPEES and IPCMS. The PhD student will thus benefit from all the techniques and expertise necessary to carry out the project, in the fields of nanomaterials, plasmonic catalysis, and
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the organization of water molecules on the selective adsorption of metabolites depending on their physico-chemical properties. Simulation results will be assessed by experimental surface plasmon resonance (SPR
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to join our plasmonics and photophysics team and work at the interface of nanophotonics and energy-related applications. Key challenges in solar energy harvesting and photocatalysis stem from limited
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, covering diagnostics and sensing, but also therapeutic and anti-inflammatory strategies. Engineering and optimizing hybrid nanomaterials, including plasmonic materials and hybrid systems, to enable advanced
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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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–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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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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microscopy, nanosciences, biosensing, and nanobiotechnologies. Jerome Wenger’s group has acquired a wide expertise in the nanoscale control of light fields in plasmonic nanostructures and its application