AI Article Synopsis
- Two diazaporphyrin-porphyrin hetero dimers (β-meso and β-β configurations) were created to examine their electron transfer properties after exposure to light.
- The presence of two nitrogen atoms in the diazaporphyrin structure lowers its redox potential, making it easier to reduce than regular porphyrins, which facilitates charge transfer between the two components in both dimers.
- Spectroscopic analysis revealed the formation of short-lived exciplexes in both dimers, with significant differences in lifetimes depending on the solvent used, indicating the complexity of the electron transfer dynamics.
Article Abstract
Two diazaporphyrin (DAP)-porphyrin hetero dimers, in β-meso and β-β configurations, were prepared to study their photoinduced intramolecular electron transfer properties. The two meso nitrogen atoms in the porphyrin ring of DAP change its redox potential, making DAP more easily reduced, compared to its porphyrin counterpart. A charge-transfer from porphyrin to DAP in both hetero dimers was verified by versatile optical spectroscopic methods. The steady-state fluorescence spectra indicated an efficient intramolecular exciplex formation for both dimers. For the β-meso dimer, ultrafast time-resolved spectroscopic methods revealed the subpicosecond formation of two types of primary short-living (1-18 ps) intramolecular exciplexes, which relaxed in toluene to form a long-living final exciplex (1.4 ns) followed by a longer-living charge transfer complex (>5 ns). However, in benzonitrile, the lifetime of the final exciplex was longer (660 ps) as was that of the charge transfer complex (180 ps). The β-β analogue formed similar short-living exciplexes in both solvents, but the final exciplex and the charge transfer state had significantly shorter lifetimes. The electrochemical redox potential measurements and density functional theory calculations supported the proposed mechanism.
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