2012
DOI: 10.1039/c2dt31189e
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Equilibrium, photophysical and photochemical examination of anionic lanthanum(iii) mono- and bisporphyrins: the effects of the out-of-plane structure

Abstract: Lanthanum(III) ion forms kinetically labile complexes with the 5,10,15,20-tetrakis(4-sulfonatophenyl)porphyrin anion (H2TSPP 4-), the compositions and formation constants of which significantly depend on the presence of potential axial ligands (at 0.01 M). Deviating from the chloride ion, acetate coordinating to the metal center hinders the formation of bisporphyrin complex. In these 10 lanthanum(III) complexes, the metal center, due to its large ionic radius (103.2 pm), is located out of the ligand plane, dis… Show more

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Cited by 17 publications
(32 citation statements)
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(176 reference statements)
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“…The effect of the porphyrin concentration was also investigated: the overall photochemical quantum yields monotonously increased with the concentration. This suggests that the excited complex molecules can undergo bimolecular, thermal (redox) reaction with the species in ground state [9].…”
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“…The effect of the porphyrin concentration was also investigated: the overall photochemical quantum yields monotonously increased with the concentration. This suggests that the excited complex molecules can undergo bimolecular, thermal (redox) reaction with the species in ground state [9].…”
mentioning
confidence: 99%
“…The presence of bidentate, O-donor acetate ion enhances the coordination of the first porphyrin ligand, due to its trans effect, but it hinders the connection of a further porphyrin, i.e. the formation of bisporphyrins, because it remains on the lanthanide(III) ion in axial position [9,22]. Insertion of these larger metal ions into the porphyrin cavity can be spectrophotometrically followed due to the redshifts of UVVis, intraligand ππ* absorption bands (Fig.…”
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