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Lowering of the singlet-triplet energy gap via intramolecular exciton-exciton coupling

Clara Schäfer, Rasmus Ringström, Jörg Hanrieder, Martin Rahm, Bo Albinsson, Karl Börjesson

2024Nature Communications24 citationsDOIOpen Access PDF

Abstract

Organic dyes typically have electronically excited states of both singlet and triplet multiplicity. Controlling the energy difference between these states is a key factor for making efficient organic light emitting diodes and triplet sensitizers, which fulfill essential functions in chemistry, physics, and medicine. Here, we propose a strategy to shift the singlet excited state of a known sensitizer to lower energies without shifting the energy of the triplet state, thus without compromising the ability of the sensitizer to do work. We covalently connect two to four sensitizers in such a way that their transition dipole moments are aligned in a head-to-tail fashion, but, through steric encumbrance, the delocalization is minimized between each moiety. Exciton coupling between the singlet excited states considerably lowers the first excited singlet state energy. However, the energy of the lowest triplet excited state is unperturbed because the exciton coupling strength depends on the magnitude of the transition dipole moments, which for triplets are very small. We expect that the presented strategy of designed intramolecular exciton coupling will be a useful concept in the design of both photosensitizers and emitters for organic light emitting diodes as both benefits from a small singlet-triplet energy gap.

Topics & Concepts

Singlet fissionExcited stateSinglet stateExcitonDelocalized electronTriplet stateIntramolecular forceDipoleTransition dipole momentChemistryMaterials sciencePhotochemistryAtomic physicsChemical physicsMolecular physicsPhysicsCondensed matter physicsStereochemistryOrganic chemistryLuminescence and Fluorescent MaterialsOrganic Light-Emitting Diodes ResearchRadical Photochemical Reactions