Delayed fluorescence (DF) is a unique emitting phenomenon of great interest for important applications in organic optoelectronics. In general, DF requires well-separated frontier orbitals, inherently corresponding to charge transfer (CT)-type emitters. However, facilitating intrinsic DF for local excited (LE)-type conjugated emitters remains very challenging. Aiming to overcome this obstacle, we demonstrate a new molecular design strategy with a DF-inactive B,N-multiple resonance (MR) emitter as a model system. Without the necessity of doping with heavy atoms, we synthesized a co-facial dimer in which an excimer-like state (S) was expected to facilitate efficient reverse intersystem crossing (RISC, T → S) and intrinsic DF. Benefiting from greatly enhanced SOC and reduced Δ , the proof-of-concept emitter Np-2CzB exhibited up to 6.5 × 10 s and intrinsic DF with >35% contribution ( / ) in dilute solution. Further investigation indicated that S state formation relies on an optimized co-facial distance ( = ∼4.7 Å), strong inter-chromophore interaction ( > 450 cm) and a rigid structure ( < 350 cm). Although our strategy was demonstrated with a B,N-MR emitter, it can be applicable to many LE-type conjugated emitters without intrinsic DF. By triggering potential DF emission, many classic emitters might play a more important role in optoelectronics.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11484929 | PMC |
| http://dx.doi.org/10.1039/d4sc05494f | DOI Listing |
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