Near-Infrared Electroluminescence beyond 940 nm in Pt(N^C^N)X Complexes: Influencing Aggregation with the Ancillary Ligand X

Autor: Rebecca Salthouse, Piotr Pander, Dmitry Yufit, Fernando Dias, J.A. Gareth Williams
Rok vydání: 2022
DOI: 10.26434/chemrxiv-2022-rqgs0
Popis: We present a study of aggregate excited states formed by complexes of the type Pt(N^C^N)X, where N^C^N represents a tridentate cyclometallating ligand, and X = SCN or I. These materials display near-infrared (NIR) photoluminescence in film and electroluminescence in NIR OLEDs with λELmax = 720-944 nm. We demonstrate that the two monodentate ligands X employed modulate aggregate formation compared to the parent complexes where X = Cl. While the identity of the monodentate ligand affects the energy of Pt–Pt excimers in solution in only a subtle way, it strongly influences aggregation in film. Detailed calculations on aggregates of different sizes support the experimental conclusions from steady-state and time-resolved luminescence studies at variable temperatures. The use of X = I appears to limit aggregation to the formation of dimers, while X = SCN promotes the formation of larger aggregates, such as tetramers and pentamers, leading in turn to NIR photo- and electroluminescence > 850 nm. A possible explanation for the contrasting influence of the monodentate ligands is the lesser steric hindrance associated with the SCN group compared to the bulkier I ligand. By exploiting the propensity of the SCN complexes to form extended aggregates, we have prepared an NIR-emitting OLED that shows very long-wavelength electroluminescence, with λEL(max) = 944 nm and a maximum EQE = 0.3 ± 0.1 %. Such data appear to be unprecedented for a device relying on a Pt(II) complex aggregate as the emitter.
Databáze: OpenAIRE