SANTOS, PAULO R.S.JESUS, ASHELY A.S.S. deLIMA, WILLIAM B. deCOSTA, ISRAEL F.FAUSTINO, WAGNER M.FELINTO, MARIA C.F.C.TEOTONIO, ERCULES E.S.BRITO, HERMI F.2023-04-112023-04-11SANTOS, PAULO R.S.; JESUS, ASHELY A.S.S. de; LIMA, WILLIAM B. de; COSTA, ISRAEL F.; FAUSTINO, WAGNER M.; FELINTO, MARIA C.F.C.; TEOTONIO, ERCULES E.S.; BRITO, HERMI F. Complex of luminescent europium containing bis(diphenylphosphine)oxide ligands. In: SILVA, FERNANDO de C. da (org.). In: REUNIAO ANUAL DA SBQ, 45., 31 de maio - 3 de junho, 2022, Maceió, AL. <b>Resumo...</b> São Carlos, SP: Aptor Software, 2022. p. 380-380. Disponível em: http://repositorio.ipen.br/handle/123456789/33972.http://repositorio.ipen.br/handle/123456789/33972Trivalent lanthanide coordination compounds are characterized by their long luminescence lifetime of emitting level, narrow emission band and high color purity, which makes them fascinate for application in LCMDs, OLEDs, immunoassay, bioimaging probes, luminescent sensors and in telecommunications systems etc. Among this class of compounds, those ones in which β-diketonate ligands act as luminescence sensitizers have found a prominent position. However, most of these systems are obtained in the form of simple molecular entities. Recently, interest in new polynuclear systems containing diketonate ligands has been growing significantly. Therefore, this work reports on the synthesis, characterization, and photophysical properties of the lanthanide compounds of general formula [Ln2(β- dik)6(dppeO2)], where β-dik = tta, bzac, dbm, [Ln(β-dik)3(dppeO2)] where β-dik = btf and [Ln(β-dik)3(dppeO2)2]n where β-dik = fod, dppeO2 = 1,2-Bis(diphenylphosphino)ethane oxide, Ln = Eu3+ and Gd3+. These complexes were prepared by direct reaction among ethanolic solutions of the [Ln(β-dik)3(H2O)] complexes and dppeO2 ligands in the molar ratios [Ln(β-dik)3(H2O)]: dppeO2 of 2:1. The FT-IR spectra of complexes show red-shifted of 20–41 cm-1 for the band assigned to the ν(C=O) vibrational mode (Fig 1a), suggesting that β–diketonate ligands are coordinated to the Ln3+ ion in chelating mode. Diffuse reflectance spectra of the Eu3+-complexes show strong absorption bands in the range of 200–450 nm ascribed to the S0→Sn (ππ* or mixed nπ*) transitions from the diketonate ligands. The high relative intensities between excitation bands from ligand and 4f-4f transitions in the complexes with tta, btf and bzac indicates an efficient ligand-to-metal energy transfer process. On the other hand, for complexes with fod, dbm and bzac (Fig 1b) a lower intensity of the ligand bands is observed, suggesting that a luminescence suppression channel is operative. The emission spectra present the bands assigned to the 5D0→7FJ (J = 0–4) transitions of the europium ion (Fig 1c). The Ω2 and Ω4 intensity parameters, lifetime (τ) and luminescence intrinsic quantum yield ΦEu/Eu were calculated from the emission spectral data and luminescence decay curves of the compounds in solid state (Table 1). According with these data, the polymeric or dimeric investigated systems exhibit high luminescence intensities in the red region, which make them potential candidates for application as emitting layer in molecular light-converting devices.380-380openAccessResumo de eventos científicos0000-0001-7028-0878https://orcid.org/0000-0001-7028-0878