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Beneficiaries
- Project 1: Exciton transfer and NPQ in diatoms: A multi-scale approach employing machine learningConstructor University, Bremen, GermanyCoordinator and Scientist in charge: Prof. Ulrich Kleinekathöfer
- Project 2: The Configurational Space of Fucoxanthin and Chlorophyll-a/c binding proteins (FCP) in diatomsUniversity of Patras, GreeceVice-Coordinator and Scientist in charge: Prof. Vangelis Daskalakis
- Project 3: Multiscale modeling of energy transport for light-harvesting and non-photochemical quenching in higher plantsUniversity of Pisa, ItalyScientist in charge: Prof. Benedetta Mennucci
- Project 4: Spectroscopic Signatures of Exciton Annihilation and QuenchingUniversity of Groningen, NetherlandsScientist in charge: Prof. Thomas la Cour Jansen
- Project 5: Development of simulation approaches for nonlinear spectroscopy of molecular complexesVilnius University, LithuaniaScientist in charge: Prof. Darius Abramavicius
- Project 6:The configurational space of LH complexes from higher plants – sensing and response to pH changesICFO – Institute of Photonic Sciences, Castelldefels, SpainScientist in charge: Prof. Nicoletta Liguori
- Project 7: Charge transfer states and higher excited states in light-harvestingJohannes Kepler University Linz, AustriaScientist in charge: Prof. Thomas Renger
- Project 8: Non-adiabatic dynamics in LH complexes with the use of Machine Learning algorithms Karlsruhe Institute of Technology, GermanyScientist in charge: Prof. Marcus Elstner
- Project 9: Environmental effects (solvent and protein chain) on high accuracy QM excited-state calculations via multiscale QM/MM on the light harvesting complexFACCTs GmbH, Cologne, GermanyScientist in charge: Dr. Christoph Riplinger
- Project 10: pKa prediction for LHC residues, in the presence of LHC-protein and LHC-carotenoid, lipid interactionsOneAngstrom SAS, Grenoble, FranceScientist in charge: Dr. Stephane Redon
Associated partners
