Six iridium complexes were designed and studied using the DFT approach, (ppy)Ir(pic) (1), (fppy)Ir(pic) (2), (ppy)Ir(tmd) (3), (fppy)Ir(tmd) (4), (ppy)Ir(tpip) (5) and (fppy)Ir(tpip) (6). Here ppy denotes phenylpyridine, fppy denotes 2-(2,3,4,5-tetrafluorophenyl) pyridine, pic denotes benzoic acid, tmd denotes 5-hydroxy-2,2,6,6-tetramethylhept-4-en-3-one and tpip denotes tetraphenylimido-diphosphinate. The geometries, absorptions, emissions, frontier molecular orbitals, and spin-orbit coupling (SOC) constants of the 6 complexes were evaluated. An intriguing phenomenon was observed during the excitation process of these molecules. It was discovered that, in the ground state, the Frontier Molecular Orbitals (FMOs) of these molecules were loosely arranged throughout the molecule. However, in the Lowest Unoccupied Molecular Orbitals (LUMO) of the triplet excited state, the FMOs become concentrated around the metal core and a maximum of two ligands. Furthermore, the analysis of the energy difference between the lowest singlet excited state and the lowest triplet excited state (Δ ) of these complexes in conjunction with their spin-orbit coupling performance indicated that complex 1 exhibits characteristics consistent with Thermally Activated Delayed (TAD) fluorescence. We hope that this research can serve as a reference for practical experimental synthesis.
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| http://dx.doi.org/10.1039/d4ra05828c | DOI Listing |
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