Effects of structural deformations on optical properties of tetrabenzoporphyrins: Free-bases and Pd complexes

A recently developed method of synthesis of π-extended porphyrins made it possible to prepare a series of tetrabenzoporphyrins (TBP) with different numbers of meso-aryl substituents. The photophysical parameters of free-bases and Pd complexes of meso-unsubstituted TBP's, 5, 15-diaryl-TBP's (Ar ₂TBP's) and 5,10,15,20-tetraaryl-TBP's (Ar₄TBP's) were measured. For comparison, similarly meso-arylsubstituted porphyrins fused with nonaromatic cyclohexeno-rings, i.e. Ar_n,-tetracyclohexenoporphyrins (Ar_nTCHP's, n = 0, 2, 4), were also synthesized and studied. Structural information was obtained by ab initio (DFT) calculations and X-ray crystallography. It was found that: 1) Free-base Ar₄TBP's are strongly distorted out-of-plane (saddled), possess broadened, red-shifted spectra, short excited-state lifetimes and low fluorescence quantum yields (τ_fl = 2-3 ns, Φ_fl = 0.02-0.03). These features are characteristic of other nonplanar free-base porphyrins, including Ar ₄TCHP's. 2) Ar₂TBP free-bases possess completely planar geometries, although with significant in-plane deformations. These deformations have practically no effect on the singlet excited-state properties of Ar ₂TBP's as compared to planar meso-unsubstituted TBP's. Both types of porphyrins retain strong fluorescence (τ_fl = 10-12 ns, Φ = 0.3-0.4), and their radiative rate constants (k_r) are 3-4 times higher than those of planar H₂TCHP's. 3) Nonplanar deformations dramatically enhance nonradiative decay of triplet states of regular Pd porphyrins. For example, planar PdTCHP phosphoresces with high quantum yield (Φ_phis = 0.45, τ_phos = 1118 μs), while saddled PdPh₄TCHP is practically nonemissive. In contrast, both ruffled and saddled PdAr_nTBP's retain strong phosphorescence at ambient temperatures (PdPh₂TBP: τ_phos = 496 μs, Φ_phos = 0.15; PdPh₄TBP: τ_phos = 258 μs, Φ_phos = 0.08). It appears that π-extension is capable of counterbalancing deleterious effects of nonplanar deformations on triplet emissivity of Pd porphyrins.