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Tuning the Triplet Excited State of Bis(dipyrrin) Zinc(II) Complexes: Symmetry Breaking Charge Transfer Architecture with Exceptionally Long Lived Triplet State for Upconversion

Zafar Mahmood, Noreen Rehmat, Shaomin Ji, Jianzhang Zhao, Shanshan Sun, Mariangela Di Donato, Ming‐De Li, Maria Teddei, Yanping Huo

2020Chemistry - A European Journal37 citationsDOI

Abstract

Abstract Zinc(II) bis(dipyrrin) complexes, which feature intense visible absorption and efficient symmetry breaking charge transfer (SBCT) are outstanding candidates for photovoltaics but their short lived triplet states limit applications in several areas. Herein we demonstrate that triplet excited state dynamics of bis(dipyrrin) complexes can be efficiently tuned by attaching electron donating aryl moieties at the 5,5′‐position of the complexes. For the first time, a long lived triplet excited state ( τ T =296 μs) along with efficient ISC ability ( Φ Δ =71 %) was observed for zinc(II) bis(dipyrrin) complexes, formed via SBCT. The results revealed that molecular geometry and energy gap between the charge transfer (CT) state and triplet energy levels strongly control the triplet excited state properties of the complexes. An efficient triplet–triplet annihilation upconversion system was devised for the first time using a SBCT architecture as triplet photosensitizer, reaching a high upconversion quantum yield of 6.2 %. Our findings provide a blueprint for the development of triplet photosensitizers based on earth abundant metal complexes with long lived triplet state for revolutionary photochemical applications.

Topics & Concepts

Excited stateTriplet stateChemistrySinglet fissionPhoton upconversionPhotochemistryQuantum yieldZincElectron transferCharge (physics)FluorescenceChemical physicsAtomic physicsPhysicsOrganic chemistryIonQuantum mechanicsLuminescence and Fluorescent MaterialsPorphyrin and Phthalocyanine ChemistryLuminescence Properties of Advanced Materials
Tuning the Triplet Excited State of Bis(dipyrrin) Zinc(II) Complexes: Symmetry Breaking Charge Transfer Architecture with Exceptionally Long Lived Triplet State for Upconversion | Litcius