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Time‐resolved EPR studies of covalently linked porphyrin—crown ether—quinones, dissolved in liquid crystals
Author(s) -
Batchelor Stephen N.,
Sun Licheng,
Möbius Klaus,
Kurreck Harry
Publication year - 1995
Publication title -
magnetic resonance in chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.483
H-Index - 72
eISSN - 1097-458X
pISSN - 0749-1581
DOI - 10.1002/mrc.1260331307
Subject(s) - porphyrin , chemistry , photochemistry , electron paramagnetic resonance , quinone , crown ether , moiety , intramolecular force , acceptor , crystallography , electron transfer , stereochemistry , nuclear magnetic resonance , ion , organic chemistry , physics , condensed matter physics
Time‐resolved EPR spectra are reported for photoexcited porphyrin—quinones with butylene and cis ‐ or trans ‐ cyclohexylene spacers between porphyrin donors and crown ether—quinone acceptors. In the nematic phases of liquid crystals, polarized triplet EPR spectra of the porphyrin moiety could be observed at early delay times (0.1–0.6 μs) after laser flash irradiation. At later delay times (1–2 μs) the triplet EPR spectra of the charge‐separated radical pair state, created by intramolecular electron transfer from the porphyrin donor to the crown ether quinone acceptor, could be detected. The similarity of the zero‐field splitting parameters D of the cyclohexylene‐ and butylene‐linked compounds shows that the radical pair of the flexible butylene‐linked compound is in a stretched conformation. However, longer laser irradiation of the species with the flexible bridge results in the formation of a novel triplet radical pair species with a shorter porphyrin—quinone separation indicating a photoinduced backfolding of the quinone over the porphyrin plane. Comparison of the cis ‐ and trans ‐cyclohexylene‐linked compounds reveals a distortion of the cyclohexylene spacer in the cis compound.