Intermolecular Interactions and their Implications in Solid-State Photon Interconversion

Intermolecular Interactions and their Implications in Solid-State Photon Interconversion

Photon interconversion promises to alleviate thermalization losses for high energy photons and facilitates utilization of sub-bandgap photons – effectively enabling the optimal use of the entire solar spectrum. However, for solid-state device applications, the impact of intermolecular interactions o...

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Bibliographic Details
Main Author: Lea Nienhaus
Format: Article
Language:deu
Published: Swiss Chemical Society 2024-12-01
Series:CHIMIA
Subjects:
Aggregation
Intermolecular coupling
Singlet fission
Triplet-triplet annihilation
Online Access:https://www.chimia.ch/chimia/article/view/7444
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Summary:Photon interconversion promises to alleviate thermalization losses for high energy photons and facilitates utilization of sub-bandgap photons – effectively enabling the optimal use of the entire solar spectrum. However, for solid-state device applications, the impact of intermolecular interactions on the energetic landscape underlying singlet fission and triplet-triplet annihilation upconversion cannot be neglected. In the following, the implications of molecular arrangement, intermolecular coupling strength and molecular orientation on the respective processes of solid-state singlet fission and triplet-triplet annihilation are discussed.
ISSN:0009-4293
2673-2424

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