project . 2018 - 2023 . On going

QUEM-CHEM

Time- and space- resolved ultrafast dynamics in molecular-plasmonic hybrid systems
Open Access mandate for Publications European Commission
  • Funder: European CommissionProject code: 772676 Call for proposal: ERC-2017-COG
  • Funded under: H2020 | ERC | ERC-COG Overall Budget: 1,901,400 EURFunder Contribution: 1,901,400 EUR
  • Status: On going
  • Start Date
    01 May 2018
    End Date
    30 Apr 2023
  • Detailed project information (CORDIS)
  • Open Access mandate
    Research Data: No
Description
This project aims at developing theoretical and numerical methods to simulate space- and time-resolved ultrafast dynamics in novel hybrid molecular-metal nanoparticle systems. The excitation of collective electron dynamics inside the metallic nanoparticles induced by external light fields leads to strongly re-shaped electromagnetic near-fields with complex spatial and temporal profile. The interaction of these modified and enhanced near-fields with molecules located in close vicinity to the metallic nanoparticle is the origin of many astonishing physical and chemical phenomena, such as the formation of new quasi-particles, new mechanisms for chemical reactions o...
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Description
This project aims at developing theoretical and numerical methods to simulate space- and time-resolved ultrafast dynamics in novel hybrid molecular-metal nanoparticle systems. The excitation of collective electron dynamics inside the metallic nanoparticles induced by external light fields leads to strongly re-shaped electromagnetic near-fields with complex spatial and temporal profile. The interaction of these modified and enhanced near-fields with molecules located in close vicinity to the metallic nanoparticle is the origin of many astonishing physical and chemical phenomena, such as the formation of new quasi-particles, new mechanisms for chemical reactions o...
Partners
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