Emerging Strategies to Reduce Transmission and Thermalization Losses in Solar Cells

Introduction: Solar cell e!ciency and routes beyond current limits.- Part I: Addressing transmission losses - sequential absorption via triplet fusion in organic materials.- Photophysics.- Near-infrared-to-visible photon upconversion.- Photon upconversion based on sensitized triplet-triplet annihilation (sTTA) in solids.- Organic triplet photosensitizers for triplet-triplet annihilation upconversion.- Plasmon-enhanced homogeneous and heterogeneous triplet-triplet annihilation.- Part II: Molecular oxygen and triplets - photophysics and protective strategies.- Molecular Oxygen in Photoresponsive Organic Materials.- Protective Strategies towards Long-term Operation of Annihilation Photon Energy Upconversion.- Additive-assisted stabilization against photooxidation of organic and hybrid solar cells.- Part III: Implementation of photochemical upconversion in solar cells.- Optically-coupled Upconversion Solar Cells.- Electronically-coupled TTA-UC Solar Cells.- Part IV: Addressing transmission losses - sequential absorption in rare earth ions.- Rare-earth ion based photon up-conversion for transmission-loss reduction in solar cells.- Nanophotonics for photon upconversion enhancement.- Part V: Addressing thermalisation losses - singlet fission and quantum cutting.- Singlet fission - mechanisms and molecular design.- Singlet fission solar cells.

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• Tecnologia das fontes de energia renovável e alternativa
• Dispositivos e materiais electrónicos

Solar Cells;Photophysics;Rare Earth Metals;Thermalization losses;Singlet fission;Triplet fusion;Implementation in solar cells;Solid state physics;Molecular physics;Characterization of solar cells