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Awakening a Molecular Mummy: The Inter-and Intramolecular Photochemistry of Pyromellitic Diimides with Alkyl Carboxylates.

Wolfgang H KramerDonya RazinoubakhtGurjit KaurAxel KleinSimon GarbeJörg NeudörflSabrina MolitorAnne ZimmerAxel G Griesbeck
Published in: Photochem (2022)
Pyromellitic acid diimides are not as chemically unreactive as conjecturable (and presupposed) from their numerous applications as electron acceptor units or electron carriers in molecular donor-acceptor dyads or triads. Similar to the corresponding phthalimides, electronically excited pyromellitic diimides oxidize alkyl carboxylates in aqueous solution via intermolecular electron transfer (PET) processes, which eventually results in radical-radical combination products, e.g., the benzylation product 6 from N,N '-dimethyl pyromellitic diimide 5 . The analogous product 7 was formed with pivalic acid as tert -butyl radical source. One additional product 8 was isolated from alkylation/dearomatization and multiple radical additions, respectively, after prolonged irradiation. In intramolecular versions, from N -carboxyalkylated pyromellitic diimides 9a-e (C 1 to C 5 -spaced), degradation processes were detected, e.g., the cyclization products 10 from the GABA substrate 9c . In sharp contrast to phthalimide photochemistry, the green pyromellitic diimide radical anion was detected here by UV-vis absorption (λ abs = 720 nm), EPR (from 9d ), and NMR spectroscopy for several intramolecular electron transfer examples. Only the yellow 1,4-quinodial structure is formed from intermolecular PET, which was deduced from the absorption spectra ( λ abs = 440 nm) and the subsequent chemistry. The pyromellitimide radical anion lives for hours at room temperature in the dark, but is further degraded under photochemical reaction conditions.
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