Litcius/Paper detail

Eliminating the Reverse ISC Bottleneck of TADF Through Excited State Engineering and Environment‐Tuning Toward State Resonance Leading to Mono‐Exponential Sub‐µs Decay. High OLED External Quantum Efficiency Confirms Efficient Exciton Harvesting

Hartmut Yersin, Rafał Czerwieniec, Larisa N. Mătărângă-Popa, Jan‐Michael Mewes, Gang Cheng, Chi‐Ming Che, Masaki Saigo, Shuji Kimura, Kiyoshi Miyata, Ken Onda

2022Advanced Functional Materials35 citationsDOIOpen Access PDF

Abstract

Abstract The electronic structure and photophysics of the recently designed organic direct singlet harvesting (DSH) molecule are explored, in which donor (D) and acceptor (A) are held at distance by two bridges. One of the bridges is functionalized with fluorene. This structure leads to an ultrasmall singlet–triplet energy gap of ∆ E ( S 1 − T 1 ) ≈ 10 cm −1 (≈1 meV) between the charge transfer states 1,3 CT and shows an energetically close‐lying 3 ππ * state localized on fluorene. Dielectric constant variation of the environment leads to state crossing of 3 ππ * and 1,3 CT near ε = 2.38 (toluene), as confirmed through time‐dependent density functional theory (DFT) and state‐specific DFT/polarizable continuum model excited‐state calculations. Transient absorption (TA) and time‐resolved luminescence in the femtosecond to microsecond regimes show rates of intersystem crossing (ISC) and reverse ISC (rISC) of >10 9 s –1 . Thus, a strictly mono‐exponential short‐lived photo‐luminescence decay (431 ns) is observed, revealing that rISC is no longer the bottleneck responsible for long thermally activated delayed fluorescence. Ultrafast TA displays a time constant of ≈700 fs, representing the relaxation time of DSH and its solvent environment to the relaxed 1 CT state with a molecular dipole moment of ≈40 D. Importantly, OLED devices, emitting sky‐blue light and showing high external quantum efficiency of 19%, confirm that singlet and triplet excitons are harvested efficiently.

Topics & Concepts

Intersystem crossingMaterials scienceSinglet stateDensity functional theoryExcitonExcited stateOLEDMolecular physicsAcceptorUltrafast laser spectroscopyAtomic physicsPhotochemistryOptoelectronicsPhysicsSpectroscopyChemistryCondensed matter physicsComputational chemistryNanotechnologyLayer (electronics)Quantum mechanicsOrganic Light-Emitting Diodes ResearchOrganic Electronics and PhotovoltaicsPerovskite Materials and Applications