2017
DOI: 10.21577/0103-5053.20170079
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Rare Earth-Indomethacinate Complexes with Heterocyclic Ligands: Synthesis and Photoluminescence Properties

Abstract: In this work, synthesis, characterization and photophysical properties of trivalent rare earth complexes with a nonsteroidal anti-inflammatory drug [the indomethacinate (indo), presenting formulas RE(indo) 3 (H 2 O) x (x = 3, for Eu 3+ and Gd 3+ , and x = 4 for Tb 3+), RE(indo) 3 (bipy) and RE(indo) 3 (phen) (bipy: 2,2'-bipyridine, and phen: 1,10-phenanthroline)] were investigated. Based on photoluminescent results, the intramolecular energy transfer process from T 1 triplet states of indo, phen and bipy ligan… Show more

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Cited by 2 publications
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“…To circumvent the low extinction coefficients and enhance the luminescent properties of the 4f ions, several complexes of Tb 3+ , as well as other trivalent lanthanide ions (Ln 3+ ) such as Sm 3+ , Eu 3+ , and Dy 3+ , have been synthesized with chelating, strongly absorbing multidentate organic ligands, especially those containing aromatic or other π-chromophores such as β-diketonates, bipyridines, calixarenes, and dipicolinic acids that display the so-called “antenna effect”. , This gives highly luminescent complexes in which, following irradiation by UV light and according to the widely known Jablonski model, the chromophore-containing ligand transfers energy to the metal center via the ligand first excited triplet state (T 1 ), populating the emitting Ln 3+ levels. , In addition to this, the importance of the so-called “singlet pathway”, in which the energy transfer to the 4f levels occurs directly from the ligand first excited singlet state (S 1 ), has also been recognized, although the longer-lived T 1 state is generally accepted as the most suitable intermediate …”
Section: Introductionmentioning
confidence: 99%
“…To circumvent the low extinction coefficients and enhance the luminescent properties of the 4f ions, several complexes of Tb 3+ , as well as other trivalent lanthanide ions (Ln 3+ ) such as Sm 3+ , Eu 3+ , and Dy 3+ , have been synthesized with chelating, strongly absorbing multidentate organic ligands, especially those containing aromatic or other π-chromophores such as β-diketonates, bipyridines, calixarenes, and dipicolinic acids that display the so-called “antenna effect”. , This gives highly luminescent complexes in which, following irradiation by UV light and according to the widely known Jablonski model, the chromophore-containing ligand transfers energy to the metal center via the ligand first excited triplet state (T 1 ), populating the emitting Ln 3+ levels. , In addition to this, the importance of the so-called “singlet pathway”, in which the energy transfer to the 4f levels occurs directly from the ligand first excited singlet state (S 1 ), has also been recognized, although the longer-lived T 1 state is generally accepted as the most suitable intermediate …”
Section: Introductionmentioning
confidence: 99%
“…que una diferencia de energía "segura" entre el estado triplete del ligando orgánico y el nivel emisivo 5 D j de los iones Ln (III) debe estar entre 2,500-3,000 cm −1 para una eficiente transferencia de energía (TE) [153]. Sin embargo, en algunos casos dicho valor es menor (2,100 cm −1 ) [186,187,300,301] operando la Transferencia de Energía Inversa (TEI) cuando la energía del estado triplete es muy similar a la del nivel emisivo Ln 3+ [153]. Dado que el nivel emisivo 5 D 2 de los iones Eu 3+ se encuentra 1,200 cm −1 por debajo del estado triplete del ligando oxalato, dicha diferencia de energía no se cumple, produciendo así la fosforescencia del ligando (consultar Apéndice D) [153,[187][188][189].…”
Section: Caracterización Fotoluminiscenteunclassified