Herein, we report the use of spiro-configured fluorene-xanthene scaffolds as a novel, promising, and effective strategy in thermally activated delayed fluorescence (TADF) emitter design to attain high photoluminescence quantum yields (Φ), short delayed luminescence lifetime, high external quantum efficiency (EQE), and minimum efficiency roll-off characteristics in organic light-emitting diodes (OLEDs). The optoelectronic and electroluminescence properties of (spiro-(fluorene-9,9'-xanthene))-based emitters (, , and ) were investigated both theoretically and experimentally. All three emitters exhibited sky blue to green emission enabled by a Herzberg-Teller mechanism in the excited state. They possess short excited-state delayed lifetimes (<10 μs), high photoluminescence quantum yields (Φ ∼ 70%), and small singlet-triplet splitting energies (Δ < 0.10 eV) in the doped films in an mCP host matrix. The OLEDs showed some of the highest EQEs using spiro-containing emitters where maximum external quantum efficiencies (EQE) of 11 and 16% were obtained for devices using and , respectively. Further, a record EQE of 23% for a spiro-based emitter coupled with a low efficiency roll-off (19% at 100 cd m) was attained with .
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