Reversible Triplet Excitation Transfer in a Trimethylene-Linked Thioxanthone and Benzothiophene-2-Carboxanilide that Photochemically Expels Leaving Group Anions
journal contributionposted on 27.06.2018, 00:00 by Gilbert N. Ndzeidze, Lingzi Li, Mark G. Steinmetz
The triplet excited state of thioxanthone produced by photolysis undergoes reversible triplet energy transfer with a trimethylene-linked benzothiophene-2-carboxanilide ring system. The ensuing electrocyclic ring closure of the anilide moiety produces a putative zwitterionic intermediate that is capable of expelling leaving groups (LG–) from the C-3 position of the benzothiophene ring. Stern–Volmer quenching studies with cyclohexadiene as quencher furnish the rate constants for the triplet excitation transfer in the forward and reverse directions, which can be expressed as an equilibrium constant K = 0.058. Overall, the rate of the triplet excited state reaction becomes K × kr = 5.7 × 104 s–1 for LG– = Cl–, where kr is the triplet decay rate of the C-3 chloro-substituted benzothiophene-2-carboxanilide, found through Stern–Volmer quenching. The high quantum efficiencies found for the trimethylene-linked systems are due to K × kr being competitive with the triplet excited state decay of the thioxanthone of kd = 7.7 × 104 s–1. On the basis of Φisc = 0.68, the overall expected quantum yield for direct photolysis should be 0.50 for LG– = Cl– as compared to 0.41 at 25 °C experimentally. Φ decreases with increasing basicity of the leaving group (LG– = Cl–, (EtO)2PO2–, PhCH2CO2–, PhS–, and PhCH2S–).
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Trimethylene-Linked Thioxanthonetrimethylene-linked systemsrate constantstrimethylene-linked benzothiophene -2-carboxanilide ring systemΦ decreasesΦ isctriplet decay ratetriplet excitation transferanilide moietyPOC -3 positionPhotochemically Expelselectrocyclic ring closuretriplet energy transferstate reactionbenzothiophene ringCOk rGroup AnionsC -3 chloro-substituted benzothiophene -2-carboxanilideClstate decayLGReversible Triplet Excitation TransferBenzothiophene -2-Carboxanilidequantum efficiencies