Your search keyword '"Ercules E.S. Teotonio"' showing total 41 results

1. Development of highly luminescent PMMA films doped with Eu3+β-diketonate coordinated on ancillary ligand

Author

Maria C. F. C. Felinto, H.F. Brito, Ercules E.S. Teotonio, L.H.C. Francisco, and Oscar L. Malta

Subjects

010302 applied physics, Materials science, Ligand, Scanning electron microscope, Doping, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Solvent, Intramolecular force, 0103 physical sciences, Physical chemistry, Electrical and Electronic Engineering, Spectroscopy, Luminescence, Dispersion (chemistry)

Abstract

In this work, [Eu(tta)3(4-picNO)2] and [Eu(dbm)3(4-picNO)] complexes were incorporated on different concentrations (x = 1, 3, 5, 10 and 15%) in PMMA polymeric matrix (4-picNO: 4-Methylpyridine N-oxide) by the solvent casting method, yielding transparent and highly luminescent polymeric films. These materials were analyzed by X-ray diffraction, scanning electron microscopy and by energy dispersive, ultraviolet–visible spectroscopy, luminescence and vacuum ultraviolet–ultraviolet spectroscopies. The luminescence spectra of doped PMMA films are in agreement with an efficient intramolecular diketonate (tta) ligand-to-europium energy transfer. Furthermore, the values of experimental intensity parameters (Ω2,4) for luminescent polymeric materials were quite similar to those ones for isolated complexes, indicating that there is a homogeneous dispersion of Eu3+ complexes in the polymeric matrix, preserving their chemical and structural features. These behavior were also observed from the CIE diagram that show great similarity between the (x,y) coordinates for the doped PMMA samples compared to the isolated β-diketonate complexes with a reddish color tuning. The photostability investigation of the doped PMMA polymeric films and Eu3+ complexes has been also reported.

Published

2019

2. Luminescence properties of the Ln–EDTA complexes covalently linked to the chitosan biopolymers containing β-diketonate as antenna ligands

Author

Israel F. Costa, José G.P. Espínola, Maria C. F. C. Felinto, Ercules E.S. Teotonio, Hermi F. Brito, Wagner M. Faustino, and Gilvan P. Pires

Subjects

Luminescence, Photoluminescence, Biophysics, 02 engineering and technology, engineering.material, Ligands, Lanthanoid Series Elements, 01 natural sciences, chemistry.chemical_compound, Biopolymers, Coordination Complexes, Polymer chemistry, Epichlorohydrin, Edetic Acid, Chitosan, LUMINESCÊNCIA, Ligand, 010401 analytical chemistry, Antenna effect, Ketones, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, Chemistry (miscellaneous), Luminescent Measurements, engineering, Biopolymer, 0210 nano-technology, Phosphorescence, Hybrid material

Abstract

This paper reports on the preparation, characterization, and photoluminescence properties of novel hybrid materials, in which the EDTA-Ln-L complexes (where L: H2 O, acac, bzac, dbm, and tta ligands, and Ln: Eu, Gd, and Tb) were covalently linked to the precursor medium molecular weight chitosan surface (CS) matrices or on the chitosan surfaces previously crosslinked with epichlorohydrin (CSech). The emission spectra of these materials were characterized by intraconfigurational-4fN transitions centred on the Eu3+ and Tb3+ ions. Some broad bands from the polymeric matrix were also observed in the emission spectra, however the relative intensities of the intraconfigurational bands increased significantly for systems containing diketonate ligands when the antenna effect became more efficient. The values of the radiative rates (Arad ) were higher for crosslinked hybrid systems with epichlorohydrin, while nonradiative rates (Anrad ) presented the opposite behaviour. These data contributed to an increase in the values of emission quantum efficiency (η) for crosslinked materials. The effect of the modification process and antenna ligand on the values of intensities, intensity parameters Ω2 e Ω4 of the Eu3+ complexes were also investigated. The results showed that the crosslinked biopolymer surfaces have great potential for applications in molecular devices light converters.

Published

2020

3. Synthesis and photoluminescence properties of [Eu(dbm)3·PX] and [Eu(acac)3·PX] complexes

Author

Thelma A. Kovacs, Oscar L. Malta, Bakhat Ali, Tiago Becerra Paolini, Hermi F. Brito, Liana K.O. Nakamura, Ercules E.S. Teotonio, and Maria C. F. C. Felinto

Subjects

Thermogravimetric analysis, Photoluminescence, Dibenzoylmethane, Biophysics, Analytical chemistry, Infrared spectroscopy, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, Coordination complex, LANTANÍDIOS, chemistry.chemical_compound, Spectroscopy, chemistry.chemical_classification, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, chemistry, Physical chemistry, 0210 nano-technology, Luminescence, Europium

Abstract

Two novel luminescent europium tris ( β -diketonate) complexes [Eu(dbm) 3 ·PX] and [Eu(acac) 3 ·PX] (dbm: dibenzoylmethane, acac: acetylacetonate and PX: piroxicam) were successfully synthesized. These coordination compounds were characterized by infrared vibrational spectroscopy (IR), X-ray diffraction (XRD), scanning electron microscopy (SEM), thermogravimetric analysis (TGA) and luminescence spectroscopy. The thermal behavior of the complexes was investigated by thermogravimetric analysis (TG) and differential thermogravimetric analysis (DTG) techniques. The optical results have shown that these complexes present a clear intra and inter-molecular energy transfer and corroborates the sensitivity of their emission efficiency to the excitation wavelength, multiphonon non-radiative decays and temperature dependence. These new complexes may act as efficient light converting molecular devices, suggesting that they can be used for controllable photonic applications.

Published

2018

4. (INVITED) JOYSpectra: A web platform for luminescence of lanthanides

Author

Wagner M. Faustino, Maria C. F. C. Felinto, Luís D. Carlos, Ricardo L. Longo, Hermi F. Brito, Ewerton M. de Lima, Ercules E.S. Teotonio, Carlos V. Santos-Jr., Eduardo C. Aguiar, Rute A. S. Ferreira, Albano N. Carneiro Neto, Renaldo T. Moura, and Oscar L. Malta

Subjects

Lanthanide, 4f-4f intensities, JOYSpectra, Intramolecular energy transfer, Materials science, General Computer Science, Energy transfer, QC350-467, Optics. Light, Atomic and Molecular Physics, and Optics, TA1501-1820, Electronic, Optical and Magnetic Materials, Ion, Chemical physics, Intramolecular force, Excited state, Thermal, Applied optics. Photonics, Electrical and Electronic Engineering, Web platform, Luminescence, Lanthanide spectroscopy, Intensity (heat transfer)

Abstract

JOYSpectra is a free-of-charge web platform to perform online calculations of spectroscopic properties of lanthanide-based compounds and materials. It has several features and functionalities to provide a detailed analysis of the intensity parameters. For instance, their dependence on the chemical environment of the lanthanide ion (Ln3+) such as structure and nature of ligating atoms, can be performed automatically and consider covalency and thermal effects. The program can also calculate the intramolecular energy transfer rates from excited donor states up to 310 transitions involving 12 Ln3+ ions. The web platform was designed to be user-friendly for experimentalists and theoreticians interested in calculations and analyses of the photophysical behavior of lanthanides. Its use requires only the structure of the compound and the choices of a few calculation options. To show its easiness and usefulness, a detailed step-by-step calculation and analysis are performed for the [Ln(tta)3(H2O)2] (Ln: Eu and Tb) complexes to explain and quantify their distinct luminescence properties.

Published

2021

5. Luminescent Eu3+–dibenzoylmethanate complex with sulfoxide ligand as sensitizer applied to organic light- emitting diodes

Author

Hermi F. Brito, E. Niyama, Marco Cremona, Ercules E.S. Teotonio, and R. Reyes

Subjects

Photoluminescence, Ligand, Chemistry, Mechanical Engineering, Electroluminescence, EURÓPIO, Photochemistry, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Intersystem crossing, OLED, Emission spectrum, Luminescence, Phosphorescence, Engineering (miscellaneous)

Abstract

In this work the synthesis, characterization and photoluminescent and electroluminescent behavior of the [Eu(DBM)₃(PTSO)₂] complex have been investigated. The emission spectrum of this Eu³⁺–β– diketonate complex show characteristics narrow bands arising from the ⁵D₀→⁷Fȷ (J = 0–4) transitions, which are split according to the selection rule for Cs, Cn or Cnv site symmetries. Triple and doublelayer organic light-emitting diodes (OLEDs) using NPB as hole transporting layer, Alq₃ as electron transporting layer and [Eu(DBM)₃(PTSO)₂] complex as emitting and electron transporting layer were grown and characterized. We found the presence of two concurrent mechanisms for the electroluminescent behavior: (1) the electroluminescence (EL) from the exciton-ligand-Eu³+ ion energy transfer, responsible for the EL narrow bands; and (2) the molecular electrophosphorescence with an initial energy transfer exciton-ligand and posterior intersystem crossing from the excited singlet S₁ to the triplet T state followed by molecular phosphorescence (T→S₀). The electroluminescent behavior of [Eu(DBM)₃(PTSO)₂] complex suggest that this complex is promising to applied at Light Conversion Molecular Devices (LCMDs) such as in OLED devices.

Published

2017

6. Photoluminescence of single-phased white light emission materials based on simultaneous Tb3+, Eu3+ and Dy3+ doping in CaWO4 matrix

Author

Ercules E.S. Teotonio, Ivan G.N. Silva, Hermi F. Brito, Helliomar P. Barbosa, Oscar L. Malta, and Maria C. F. C. Felinto

Subjects

TERRAS RARAS, Photoluminescence, Materials science, business.industry, Mechanical Engineering, Metals and Alloys, Analytical chemistry, Infrared spectroscopy, Phosphor, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Mechanics of Materials, Excited state, Materials Chemistry, Optoelectronics, 0210 nano-technology, business, Luminescence, Thermal analysis, Spectroscopy, Powder diffraction

Abstract

The triply-doped xTb 3+ /xEu 3+ /xDy 3+ CaWO 4 (x: 0.5, 1.0, 2.0, 3.0, 4.0 and 5.0 mol%) nanomaterials were prepared at room temperature by a coprecipitation method. The luminescence materials were characterized by X-ray powder diffraction (XPD), thermal analysis (TG), infrared absorption spectroscopy (FTIR) and UV excited photoluminescence. The prepared powder phosphors are single-phase scheelite structure with porous morphology and particle sizes around 11 nm. The materials display white color from cool to the warm white, under UV excitation, as a result of the intraconfigurational 4f transitions from trivalent rare earth ions. The non-radiative energy transfer processes from the O→W and O→Eu LMCT as well as the 4f 8 →4f 7 5d 1 states to the intraconfigurational 4f excited levels of rare earth ions and simultaneous emissions from the 4 F 9/2 (Dy 3+ )→ 5 D 4 (Tb 3+ )→ 5 D 1 , 5 D 0 (Eu 3+ ) emitter levels are reported. Furthermore, CIE parameters and the color correlated temperature (CCT) are discussed in order to characterize the color emission. Based on the results, these luminescence materials may be potential candidates for white light emitting diodes and solid-state lighting.

Published

2017

7. Odd-Even Effect on Luminescence Properties of Europium Aliphatic Dicarboxylate Complexes

Author

Israel P. Assunção, Renaldo T. Moura, Oscar L. Malta, Ercules E.S. Teotonio, Maria C.F.C. Felinto, Albano N. Carneiro Neto, Cássio Cardoso Santos Pedroso, Ivan G.N. Silva, and Hermi F. Brito

Subjects

Lanthanide, Coordination sphere, Quenching (fluorescence), Ligand, chemistry.chemical_element, Quantum yield, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Crystallography, chemistry, Molecular orbital, Physical and Theoretical Chemistry, 0210 nano-technology, Luminescence, Europium

Abstract

The odd-even effect in luminescent [Eu2 (L)3 (H2 O)x ]⋅y(H2 O) complexes with aliphatic dicarboxylate ligands (L: OXA, MAL, SUC, GLU, ADP, PIM, SUB, AZL, SEB, UND, and DOD, where x=2-6 and y=0-4), prepared by the precipitation method, was observed for the first time in lanthanide compounds. The final dehydration temperatures of the Eu3+ complexes show a zigzag pattern as a function of the carbon chain length of the dicarboxylate ligands, leading to the so-called odd-even effect. The FTIR data confirm the ligand-metal coordination via the mixed mode of bridge-chelate coordination, except for the Eu3+ -oxalate complex. XRD results indicate that the highly crystalline materials belong to the monoclinic system. The odd-even effect on the 4 f-4 f luminescence intensity parameters (Ω2 and Ω4 ) is explained by using an extension of the dynamic coupling mechanism, herein named the ghost-atom model. In this method, the long-range polarizabilities ( α * ) were simulated by a ghost atom located at the middle of each ligand chain. The values of α * were estimated using the localized molecular orbital approach. The emission intrinsic quantum yield ( Q L n L n ) of the Eu3+ complexes also presented an the odd-even effect, successfully explained in terms of the zigzag behavior shown by the Ω2 and Ω4 intensity parameters. Luminescence quenching due to water molecules in the first coordination sphere is also discussed and rationalized.

Published

2019

8. Tuning emitting color of electroluminescent devices containing Tris(2-acyl-1,3-indandionate)aluminum(III) complexes as emitting layers

Author

Hermi F. Brito, Rian E. Aderne, Maria C. F. C. Felinto, Marco Cremona, Ercules E.S. Teotonio, Wagner M. Faustino, Israel F. Costa, Harold C. Avila, and Jandeilson de Lima Moura

Subjects

chemistry.chemical_classification, LUMINESCÊNCIA, Materials science, Absorption spectroscopy, General Chemistry, Electroluminescence, Acceptor, Coordination complex, chemistry, OLED, Physical chemistry, Fourier transform infrared spectroscopy, Thermal analysis, Luminescence

Abstract

In this study, a novel type of tris(2-acyl-1,3-indandione)-aluminum(III) coordination compounds of the general formula [Al(acind)3]H2O, where 2-acyl-1,3-indandione (acind), 2-acetyl-1,3-indandione (aind), 2-benzoyl-1,3-indandione (bind), and 4-methyl-2-benzoyl-1,3-indandione (mbind), were synthesized and characterized by elemental analysis (CHN), Fourier transform infrared (FTIR) and nuclear magnetic resonance (1H NMR) spectroscopies, thermal analysis (TG/DTG and DTA), and optical absorption spectroscopy in the UV-Vis region. These compounds present remarkably high green luminescence in powder and in thin-film forms. However, when these compounds are applied in glass/ITO/β-NPB/spiro-2CBP/[Al(acind)3]/Al and glass/ITO/β-NPB/[Al(acind)3]/LiF/Al electroluminescent devices, where spiro-2CBP is 2,7-bis(carbazol-9-yl)-9,9-spirobifluorene and β-NPB is N,N’-bis(naphthalen-2-yl)-N,N’-bis(phenyl)-benzidine, the emission color tuned from green to red, reflecting a change from the direct charge recombination in the emitting layer of the [Al(acind)3] complexes to an exciplex-based emission in which [Al(acind)3] complexes and spiro 2-CBP acted as acceptor and donor, respectively. These results suggest that [Al(acind)3] complexes have potential applications as molecular light converter materials for fabricating new electroluminescent devices.

Published

2019

9. Investigation on the formation of highly luminescent beta-diketone-Ln(III)-EDTA water-soluble complexes

Author

Wagner M. Faustino, Hermi F. Brito, Maria C. F. C. Felinto, Oscar L. Malta, Haryane R. M. Silva, and Ercules E.S. Teotonio

Subjects

Coordination sphere, Aqueous solution, Chemistry, Ligand, Biophysics, General Chemistry, Condensed Matter Physics, Biochemistry, Atomic and Molecular Physics, and Optics, LANTANÍDIOS, β diketone, Crystallography, Water soluble, Band width, Luminescence, Stoichiometry

Abstract

Three new β-diketone–Ln-EDTA (β-diketone = TTA, BTFA, ACAC; Ln=Eu3+ and Tb3+) water-soluble complexes were prepared, and their photophysical properties were investigated in aqueous solutions and compared with the Eu–EDTA complex. A very strong red and green luminescence was observed by the addition of ligands to the aqueous solutions of the Eu–EDTA and Tb–EDTA complexes, respectively, due to the formation of water-soluble β-diketone–Ln–EDTA complexes. To confirm the formation and stoichiometry of the new β-diketone–Ln–EDTA complex, the Judd–Ofelt intensity parameters Ω2 for Eu3+ complexes and the band width at half height (Δλ) for Tb3+ complexes were used. The dependence of these parameters on the addition of the β-diketone strongly suggests that only one β-diketonate ligand is in the first coordination sphere of the β-diketone–Ln–EDTA complexes. These new Eu3+ and Tb3+ systems may act as red and green optical markers for bioassay or bioimaging.

Published

2019

10. Optical and magnetic nanocomposites containing Fe 3 O 4 @SiO 2 grafted with Eu 3+ and Tb 3+ complexes

Author

Oscar L. Malta, Diego Muraca, Hermi F. Brito, Latif U. Khan, Ercules E.S. Teotonio, Oscar Moscoso-Londoño, Maria C.F.C. Felinto, and Kleber R. Pirota

Subjects

Photoluminescence, Materials science, FOTOLUMINESCÊNCIA, Scattering, Small-angle X-ray scattering, Mechanical Engineering, Metals and Alloys, Analytical chemistry, chemistry.chemical_element, Terbium, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Nanomaterials, Ion, chemistry, Mechanics of Materials, Materials Chemistry, 0210 nano-technology, Luminescence, Europium

Abstract

The fabrication of bifunctional nanocomposites, co-assembling photonic (RE3+) and magnetic (Fe3O4) features into single entity nanostructures is reported through a facile method, using Fe3O4 as core nanoparticles, which were coated with SiO2 shell and further grafted with Eu3+ and Tb3+ complexes. The sophisticated structural features and morphologies of the core-shell Fe3O4@SiO2-(TTA-RE-L) nanomaterials were studied by Small-angle X-ray Scattering. The core mean size 〈 D SAXS 〉 , shell thickness Δ R , cluster size ξ and fractal dimension DF were determined by fitting the experimental SAXS data, corroborating through Transmission Electron Microscopy images. The DC magnetic properties at temperatures of 2 and 300 K were explored in support to the structural conclusions from SAXS and TEM analyses. The magnetic contributions of the RE3+ ions to the magnetizations of the Eu3+ and Tb3+ nanocomposites were discussed. The photoluminescence properties of the Eu3+ and Tb3+ nanocomposites based on the emission spectral data and luminescence decay curves were studied. The experimental intensity parameters (Ωλ), lifetimes (τ), emission quantum efficiencies (η) as well as radiative (Arad) and non-radiative (Anrad) decay rates were calculated and discussed, in addition, the structural conclusions from the values of the 4f-4f intensity parameters in the case of the Eu3+ ion. These novel Eu3+ and Tb3+ nanocomposites may act as red and green emitting layers for magnetic and light converting molecular devices.

Published

2016

11. Luminescent hybrid materials functionalized with lanthanide ethylenodiaminotetraacetate complexes containing β-diketonate as antenna ligands

Author

Wagner M. Faustino, Franklin P. Aguiar, Jandeilson de Lima Moura, Hermi F. Brito, José G.P. Espínola, Ercules E.S. Teotonio, Maria C. F. C. Felinto, Israel F. Costa, and Tiago Becerra Paolini

Subjects

Lanthanide, Materials science, Photoluminescence, FOTOLUMINESCÊNCIA, Silica gel, Inorganic chemistry, Biophysics, Phosphor, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Biochemistry, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Intramolecular force, Polymer chemistry, Molecule, 0210 nano-technology, Hybrid material, Luminescence

Abstract

Three organic–inorganic hybrid materials based on silica gel functionalized with (3-aminopropyl)trimethoxysilane (APTS), [3-(2-aminoetilamino)-propil]-trimetoxissilano (DAPTS) and 3-[2-(2-aminoetilamino)etilamino] propiltrimetoxysilane (TAPTS) and subsequently modified with EDTA derivative were prepared by nonhomogeneous route and were then characterized. The resulting materials named SilXN-EDTA (X=1 for APTS, 2 for DAPTS and 3 for TAPTS) were used to obtain new lanthanide Ln3+-β-diketonate (Ln3+=Eu3+, Gd3+ and Tb3+) complexes covalently linked to the functionalized silica gel surfaces (named SilXN-EDTALn-dik, dik=tta, dbm, bzac and acac). The photophysical properties of the new luminescent materials were investigated and compared with those with similar system presenting water molecules coordinated to the lanthanide ions, SilXN-EDTALn-H2O. The SilXN-EDTAEu-dik and SilXN-EDTATb-dik systems displayed characteristic red and green luminescence when excited by UV radiation. Furthermore, the quantitative results showed that the emission quantum efficiency (η), experimental intensity parameters Ω2 and Ω4, and Einstein's emission coefficient (A0J) of the SilXN-EDTAEu-dik materials were largely dependent on the ligands. Based on the luminescence data, the most efficient intramolecular energy transfer processes were found to the SilXN-EDTAEu-dik (dik: tta and dbm) and SilXN-EDTATb-acac materials, which exhibited more pure emission colors. These materials are promising red and green phosphors, respectively.

Published

2016

12. Experimental and theoretical investigations of the [Ln(β-dik)(NO3)2(phen)2]⋅H2O luminescent complexes

Author

Israel F. Costa, Iran F. da Silva, Paulo R.S. Santos, Oscar L. Malta, Albano N. Carneiro Neto, Ercules E.S. Teotonio, Renata Diniz, Dariston K. S. Pereira, Maria Helena Araujo, Hermi F. Brito, Renaldo T. Moura, and Wagner M. Faustino

Subjects

chemistry.chemical_classification, Thermogravimetric analysis, Quenching (fluorescence), Materials science, Biophysics, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Biochemistry, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Coordination complex, chemistry, Elemental analysis, Physical chemistry, Experimental methods, Fourier transform infrared spectroscopy, 0210 nano-technology, Luminescence, Monoclinic crystal system

Abstract

In this work, the coordination compounds presenting the formulas [Eu(acac)(NO3)2 (phen)2]⋅H2O (Eu1) and [Eu(bzac)(NO3)2(phen)2]⋅H2O (Eu2), acac: acetylacetonate, bzac: benzoylacetonate and, phen: 1,10-phenantroline, were successfully synthesized and some spectroscopic properties were investigated by theoretical and experimental methods. These compounds were characterized via elemental analysis, FTIR spectroscopy and thermogravimetric analysis (TGA). The X-ray diffraction data revealed that the compound Eu1 crystallizes in the monoclinic space group P2/n. Spectroscopic data showed that ligand-to-metal charge transfer states (LMCT) in the [Eu(β-dik)(NO3)2(phen)2]⋅H2O complexes (β-dik: acac or bzac) are redshift as compared with [Eu(β-dik)3(phen)] complexes. These data showed that LMCT states play the most important role on the luminescence quenching in the complexes Eu1 and Eu2, which only exhibit high luminescence intensities at low temperatures. Furthermore, the role of changes in the chemical environment on the intensity parameters Ωλ (λ = 2 and 4) have been investigated from the theoretical point of view for the complexes Eu1 to Eu2, and from these to tris β–dik complexes. Interestingly, the theoretical intensity parameters ratio Ω2/Ω4 calculated are in a good agreement with those experimental ones.

Published

2020

13. Novel trivalent europium β-diketonate complexes with N-(pyridine-2-yl)amides and N-(pyrimidine-2-yl)amides as ancillary ligands: Photophysical properties and theoretical structural modeling

Author

Ercules E.S. Teotonio, Oscar L. Malta, Wagner M. Faustino, Jacqueline C. Bueno, Renaldo T. Moura, Albano N. Carneiro Neto, Amauri Francisco da Silva, and Geórgia B.V. Lima

Subjects

Pyrimidine, Biophysics, chemistry.chemical_element, Luminescence spectra, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biochemistry, Ion, chemistry.chemical_compound, Europium, Pyridine, Molecule, Photoluminescence, N-(pyrimidine-2-yl)amides, N-(pyridine-2-yl)amides, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Intensity parameters, Crystallography, chemistry, β-diketonates, Intramolecular force, 0210 nano-technology, Luminescence

Abstract

Eighteen new Eu3+ complexes and their Gd3+ analogues with 1,3-diketonate as main ligands and N-(pyridine-2-yl)amides or N-(pyrimidine-2-yl)amides as ancillary ligands were synthesized. The replacement of water molecules by those amides in the Eu3+ complexes increase the intrinsic quantum yields of luminescence, making them comparable or even more efficient than Eu3+ complexes with standard ancillary ligands such as 2,2′-bipyridine. The luminescence spectra of Gd3+ complexes in comparison with the Eu3+ ones show that efficient ligand-to-metal intramolecular energy transfer processes take place. In most cases the experimental Judd-Ofelt intensity parameters (Ω2 and Ω4) for the Eu3+ complexes show variations as a function of the temperature (77 and 300 K) that overall apparently does not follow clearly any trend. For this reason, geometric variations (on the azimuthal angle φ and ancillary ligands distances) were carried out in the coordination polyhedron for simulating thermally induced structural changes. It has been observed that, in this way, the Ω2 and Ω4 can be satisfactorily reproduced by in silico experiments. It was concluded that, at low-temperature, the ancillary ligands become closer to the Eu3+ ion and the angular variations affect more Ω2 than Ω4, in agreement to the theoretical calculations. The use of N-(pyridine-2-yl)amides or N-(pyrimidine-2-yl)amides as ancillary ligands in Eu3+ 1,3-diketonates looks to be a good strategy for obtaining highly luminescent complexes.

Published

2020

14. Photophysical and Structural Properties of Rare-Earth Phenolate Compounds

Author

Lucas C.V. Rodrigues, Hermi F. Brito, Ercules E.S. Teotonio, Oscar L. Malta, and Maria C. F. C. Felinto

Subjects

chemistry.chemical_classification, Photoluminescence, Chemistry, Rare earth, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Photochemistry, 01 natural sciences, 0104 chemical sciences, Ion, Coordination complex, Metal, Crystallography, Paramagnetism, visual_art, Intramolecular force, visual_art.visual_art_medium, 0210 nano-technology, Luminescence

Abstract

Trivalent rare-earth (RE3+) phenolate complexes have been receiving growing attention owing to their remarkable structural, luminescent, and magnetic properties. The RE3+ ions play an important role in the synthetic mechanisms acting as template, leading to a large number of homodinuclear and heterodinuclear coordination compounds presenting macrocyclic and macroacyclic phenolate ligands. The photoluminescent behavior of these kinds of complexes has been attributed to an efficient intramolecular energy transfer from the ligands to the RE3+ ions. The RE phenolate complexes have opened new possibilities for practical applications such as in RE3+ separation, in tunable photonic devices, in fluoroimmunoassays, and as paramagnetic contrast agents in magnetic resonance imaging. Keywords: the chemistry of metal phenolate complexes; structural properties of rare-earth phenolate complexes; RE3+ compounds containing acyclic and cyclic phenolate ligands; rare-earth–hydroxyquinolinate, -hydroxypyridine, -hydroxylpicolinate, -hydroxynicotinate cryptate, and -oxazolylphenol complexes; RE3+ luminescence properties

Published

2017

15. Luminescent Eu III Complexes Immobilized on a Vermiculite Clay Surface

Author

Hermi F. Brito, Wagner M. Faustino, Maria G. Fonseca, José G.P. Espínola, Haryane R. M. Silva, and Ercules E.S. Teotonio

Subjects

Inorganic Chemistry, Lanthanide, chemistry.chemical_compound, Dibenzoylmethane, Chemistry, Nitric acid, Specific surface area, Inorganic chemistry, MATERIAIS COMPÓSITOS, Infrared spectroscopy, Vermiculite, Luminescence, Hybrid material

Abstract

Vermiculite clays were leached with nitric acid and functionalized with (3-chloropropyl)trimethoxysilane. The resulting materials were modified with the methylimidazolium (MID) group to yield cationic surfaces. These materials were characterized by infrared spectroscopy, elemental analyses, and specific surface area. Tetrakis(β-diketonate)europate(III) complexes, [EuL4]– [L = dibenzoylmethane (DBM) and thenoyltrifluoroacetone (TTA)], were immobilized on the vermiculite surface containing the imidazolium cation to yield hybrid surfaces named Vx-MID-EuL4 (x = 0, 1, and 2), in which x represents the acid nitric concentration in mol L–1 that is used in the leaching process. The highest luminescence intensities of the intraconfigurational-4f 5D07FJ transitions (for which J = 0, 1, 2, 3, and 4) arising from [EuL4]– complexes were presented by the hybrid materials containing the amount of imidazolium cation, which depend on the leaching process. The excitation and emission spectra suggested an efficient intramolecular energy-transfer process from ligand-to-Eu3+ ion in the supported materials. The photoluminescent properties of the hybrid materials were investigated based on the emission quantum efficiency (η), experimental intensity parameters Ω2 and Ω4, and Einstein's emission coefficient (A0J). The values of these parameters for the V2-MID-EuL4 surface are close to those assigned to the [EuL4]– isolated complexes, which indicates that hybrid vermiculite materials are promising red phosphors.

Published

2014

16. Photoluminescent PMMA polymer films doped with Eu3+-β-diketonate crown ether complex

Author

Ercules E.S. Teotonio, Oscar L. Malta, Jiang Kai, Maria C. F. C. Felinto, Edison Bessa Gibelli, and Hermi F. Brito

Subjects

chemistry.chemical_classification, Photoluminescence, Coordination sphere, General Chemical Engineering, Doping, General Physics and Astronomy, chemistry.chemical_element, General Chemistry, Polymer, EURÓPIO, chemistry, Physical chemistry, Molecule, Organic chemistry, Luminescence, Europium, Crown ether

Abstract

In this work it is reported the photoluminescence sensitization effect of the bis(dibenzo-18-crown-6)diaquatris(thenoyltrifluoroacetonate)europium(III) compound, [Eu(tta) 3 (DB18C6) 2 (H 2 O) 2 ], doped into a blend of poly(methylmethacrylate) (PMMA) and polyethylene glycol (PEG) in film form. The TGA results indicate that the Eu 3+ -complex precursor is immobilized in the polymer matrix by the interaction between the Eu 3+ complex and the oxygen atoms of the PMMA polymer. The thermal behavior of these luminescent systems is similar to that of the undoped polymer. The emission spectra of the Eu 3+ -complex in the PMMA/PEG blends recorded at room temperature exhibit the characteristic bands arising from the 5 D 0 → 7 F J ( J = 0–4) intraconfigurational transitions. The emission quantum efficiency of the Eu 3+ ion doped films increased significantly, indicating an effective interaction between the Eu 3+ -complex and the polymer matrix, and both the substitution of water molecules in the first coordination sphere and an efficient luminescence co-sensitization of the Eu 3+ luminescent centers.

Published

2013

17. Mechanoluminescence of Coordination Compounds

Author

Wagner M. Faustino, Ercules E.S. Teotonio, Jandeilson de Lima Moura, Maria C.F.C. Felinto, Israel F. Costa, Paulo R.S. Santos, and Hermi F. Brito

Subjects

Lanthanide, chemistry.chemical_classification, Materials science, Antenna effect, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Rubbing, Coordination complex, chemistry, 0210 nano-technology, Luminescence, Static loading, Mechanoluminescence

Abstract

Mechanoluminescence (ML) involves all luminescence phenomena induced by mechanical action on solids. In this case, a wide varieties of mechanical stimuli, such as compressing, stretching, static loading (pressure-step), pressure pulse, cleaving, rubbing, and grinding, might induce the excitation of solids, yielding luminescence phenomena. The present chapter discusses on mechanoluminescent properties of transition metal and lanthanide coordination compounds. The principal aim of this chapter is to describe the recent facts about the mechanisms of mechanoluminescence and their correlation with structural properties. It will be also presented a concise overview on the latest progress made on the current variety of ML coordination compounds or materials based on transition and lanthanide metals. The recent studies in this area may lead to the development of ML materials for smart optical sensors for real-time damage detections, monitoring civil and military structures, luminescent probes for biological applications, and lightning systems.

Published

2016

18. Luminescent and magnetic materials with a high content of Eu3+-EDTA complexes

Author

Hermi F. Brito, Israel F. Costa, Gilvan P. Pires, Wagner M. Faustino, and Ercules E.S. Teotonio

Subjects

Coordination sphere, Dibenzoylmethane, Acetylacetone, Inorganic chemistry, chemistry.chemical_element, Ethylenediamine, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, EURÓPIO, 01 natural sciences, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Diethylenetriamine, 0210 nano-technology, Bifunctional, Europium, Luminescence, Nuclear chemistry

Abstract

Bifunctional optical magnetic materials with a high europium content have been prepared. Chelating groups were introduced on the Fe3O4 surface with organosilanes containing ethylenediaminetetraacetic acid (EDTA) derivatives, which were previously prepared via a reaction between EDTA-dianhydride and aminoalkoxysilane agents: 3-(trimethoxysilyl)propylamine (1N), N-[3(trimethoxysilyl)propyl]ethylenediamine (2N) and N(1)-(3-trimethoxysilylpropyl)diethylenetriamine) (3N). The first coordination sphere of Ln-EDTA complexes present on the modified surfaces of Fe3O4 particles was completed by addition of β-diketonate ligands (tta: thenoyltrifluoroacetone, dbm: dibenzoylmethane, bzac: benzoylacetone and acac: acetylacetone) in order to improve their luminescence properties. The materials were characterized by powder X-ray diffraction (XRD), vibrating sample magnetometry (VSM), scanning electron microscopy (SEM), transmission electron microscopy (TEM), thermogravimetric analysis (TGA), and wavelength dispersive X-ray fluorescence (WDXRF) and Fourier-transform infrared (FT-IR) spectroscopy as well as by zeta potential measurements and luminescence spectroscopy. The hybrid materials exhibited intense red emission, which can be assigned to the 4f-4f transitions of the Eu(3+) ion, indicating an efficient intramolecular ligand-to-metal energy transfer. The experimental intensity parameters (Ω2 and Ω4), lifetimes (τ), as well as radiative (Arad) and non-radiative (Anrad) decay rates of the Eu(3+) ion were determined and discussed. The strategies used to obtain these materials may contribute to the development of several bifunctional systems for practical applications.

Published

2016

19. Luminescence enhancement of the Tb(III) ion with the thenoyltrifluoroacetonate ligand acting as an efficient sensitizer

Author

Wagner M. Faustino, Alan R. Kennedy, Lidiaine M. Santo, Ercules E.S. Teotonio, Dariston K. S. Pereira, Rodolfo Moreno-Fuquen, Francisco de Assis da Silva, Denise Gilmore, Regina Helena de Almeida Santos, Hermi F. Brito, and Maria C.F.C. Felinto

Subjects

LUMINESCÊNCIA, Coordination sphere, Photoluminescence, Ligand, Chemistry, Energy transfer, chemistry.chemical_element, Terbium, Photochemistry, Ion, Inorganic Chemistry, Materials Chemistry, Physical and Theoretical Chemistry, Triplet state, Luminescence

Abstract

The synthesis, structural investigation, and photophysical properties of the complex [Tb(TTA)2(NO3)(TPPO)2] are reported. Unlike the analog tris-diketonate complex [Tb(TTA)3(TPPO)2], the new complex presents abnormally high luminescence intensity centered on the terbium ion. Our results clearly suggest a higher energy transfer efficiency from the TTA antenna ligand to the Tb(III) ion in the bis-diketonate complex compared with that in the tris-diketonate complex. A mechanism involving the increasing of triplet state energy when one TTA ligand is replaced by the NO3− group in the first coordination sphere is suggested and experimentally investigated to explain the anomalous luminescence properties of the new complex [Tb(TTA)2(NO3)(TPPO)2].

Published

2010

20. Optical properties of red, green and blue emitting rare earth benzenetricarboxylate compounds

Author

Ernesto Rezende Souza, Ercules E.S. Teotonio, Hermi F. Brito, Ivan G.N. Silva, and Maria C.F.C. Felinto

Subjects

Photoluminescence, Chemistry, Metal ions in aqueous solution, Biophysics, Analytical chemistry, Infrared spectroscopy, Quantum yield, General Chemistry, Condensed Matter Physics, Biochemistry, Atomic and Molecular Physics, and Optics, Excited state, Physical chemistry, Triplet state, Luminescence, Phosphorescence

Abstract

Red, blue and green emitting rare earth compounds (RE3+=Eu3+, Gd3+ and Tb3+) containing the benzenetricarboxylate ligands (BTC) [hemimellitic (EMA), trimellitic (TLA) and trimesic (TMA)] were synthesized and characterized by elemental analysis, complexometric titration, X-ray diffraction patterns, thermogravimetric analysis and infrared spectroscopy. The complexes presented the following formula: [RE(EMA)(H2O)2], [RE(TLA)(H2O)4] and [RE(TMA)(H2O)6], except for Tb-TMA compound, which was obtained only as anhydrous. Phosphorescence data of Gd3+-(BTC) complexes showed that the triplet states (T) of the BTC3− anions have energy higher than the main emitting states of the Eu3+ (5D0) and Tb3+ (5D4), indicating that BTC ligands can act as intramolecular energy donors for these metal ions. The high values of experimental intensity parameters (Ω2) of Eu3+-(BTC) complexes indicate that the europium ion is in a highly polarizable chemical environment. Based on the luminescence spectra, the energy transfer from the T state of BTC ligands to the excited 5D0 and 5D4 levels of the Eu3+ and Tb3+ ions is discussed. The emission quantum efficiencies (η) of the 5D0 emitting level of the Eu3+ ion have been also determined. In the case of the Tb3+ ion, the photoluminescence data show the high emission intensity of the characteristic transitions 5D4→7FJ (J=0–6), indicating that the BTC ligands are good sensitizers. The RE3+-(BTC) complexes act as efficient light conversion molecular devices (LCMDs) and can be used as tricolor luminescent materials.

Published

2010

21. Luminescent nanoparticles of MgAl2O4:Eu,Dy prepared by citrate sol–gel method

Author

Roberval Stefani, Cláudia A. Kodaira, Ercules E.S. Teotonio, Maria C.F.C. Felinto, Alessandra de Souza Maia, and Hermi F. Brito

Subjects

Chemistry, Organic Chemistry, Spinel, Analytical chemistry, Infrared spectroscopy, Phosphor, engineering.material, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Ion, Inorganic Chemistry, Persistent luminescence, Transmission electron microscopy, engineering, Emission spectrum, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, Luminescence, Spectroscopy

Abstract

MgAl 2 O 4 :Eu, Dy nanoparticles were prepared by citrate sol–gel method and thermally treated at 600, 700, 800 and 900 °C. The trivalent europium ion is partially reduced to the divalent state at 700 and 800 °C. Infrared spectra of the phosphors showed bands around 700 and 520 cm −1 corresponding to the AlO 6 groups. X-ray diffraction patterns present sharp reflections of samples heated from 700 to 900 °C indicating the MgAl 2 O 4 spinel phase. Grain size in the range 20–30 nm were observed by measurement of transmission electron microscopy (TEM). The emission spectra of the phosphors show a broadened band at 480 nm assigned to the 4f 6 5d → 4f 7 ( 8 S 7/2 ) transition of Eu 2+ ion overlapped to the 4 F 9/2 → 6 H 15/2 transition of the Dy 3+ ion. Besides, the 4 F 9/2 → 6 H 13/2 transition (579 nm) of Dy 3+ ion is overlapped with the 5 D 0 → 7 F 0 (578 nm) and 5 D 0 → 7 F 1 (595 nm) transitions from the Eu 3+ ion. Excitation spectra of the sample heated at 900 °C monitoring the excitation at 615 nm of 5 D 0 → 7 F 2 transition of Eu 3+ ion exhibit a broad band assigned to the O → Eu 3+ ligand-to-metal charge-transfer states (LMCT) around 280 nm. The samples present green persistent luminescence after exposure to UV radiation. The chromaticity coordinates were obtained from the luminescence emission spectrum.

Published

2008

22. Evaluation of intramolecular energy transfer process in the lanthanide(III) bis- and tris-(TTA) complexes: Photoluminescent and triboluminescent behavior

Author

Hermi F. Brito, Gerson M. Fett, Ercules E.S. Teotonio, Regina Helena de Almeida Santos, Wagner M. Faustino, Gilberto F. de Sá, and Maria C.F.C. Felinto

Subjects

Lanthanide, Photoluminescence, Chemistry, Biophysics, Analytical chemistry, Infrared spectroscopy, Quantum yield, General Chemistry, Crystal structure, Condensed Matter Physics, Biochemistry, Atomic and Molecular Physics, and Optics, chemistry.chemical_compound, Physical chemistry, Emission spectrum, Luminescence, Triphenylphosphine oxide

Abstract

This work reports the energy transfer mechanism process of [Eu(TTA)2(NO3)(TPPO)2] (bis-TTA complex) and [Eu(TTA)3(TPPO)2] (tris-TTA complex) based on experimental and theoretical spectroscopic properties, where TTA=2-thienoyltrifluoroacetone and TPPO=triphenylphosphine oxide. These complexes were synthesized and characterized by elemental analyses, infrared spectroscopy and thermogravimetric analysis. The theoretical complexes geometry data by using Sparkle model for the calculation of lanthanide complexes (SMLC) is in agreement with the crystalline structure determined by single-crystal X-ray diffraction analysis. The emission spectra for [Gd(TTA)3(TPPO)2] and [Gd(TTA)2(NO3)(TPPO)2] complexes are associated to T→S0 transitions centered on coordinated TTA ligands. Experimental luminescent properties of the bis-TTA complex have been quantified through emission intensity parameters Ωλ (λ=2 and 4), spontaneous emission rates (Arad), luminescence lifetime (τ), emission quantum efficiency (η) and emission quantum yield (q), which were compared with those for tris-TTA complex. The experimental data showed that the intensity parameter value for bis-TTA complex is twice smaller than the one for tris-TTA complex, indicating the less polarizable chemical environment in the system containing nitrate ion. A good agreement between the theoretical and experimental quantum yields for both Eu(III) complexes was obtained. The triboluminescence (TL) of the [Eu(TTA)2(NO3)(TPPO)2] complexes are discussed in terms of ligand-to-metal energy transfer.

Published

2008

23. Photoluminescence behavior of Eu3+ ion doped into γ- and α-alumina systems prepared by combustion, ceramic and Pechini methods

Author

M.A.F. Monteiro, Roberval Stefani, Flávio Maron Vichi, M C F C M Felinto, G. E. S. Brito, Hermi F. Brito, and Ercules E.S. Teotonio

Subjects

Materials science, Photoluminescence, Scanning electron microscope, Analytical chemistry, chemistry.chemical_element, Infrared spectroscopy, General Chemistry, Condensed Matter Physics, Ion, Crystallinity, chemistry, Mechanics of Materials, General Materials Science, Emission spectrum, Luminescence, Europium

Abstract

Al 2 O 3 :Eu 3+ (1%) samples were prepared by combustion, ceramic, and Pechini methods annealed from 400 to 1400 °C. XRD patterns indicate that samples heated up to 1000 °C present disordered character of activated alumina (γ-Al 2 O 3 ). However, α-Al 2 O 3 phase showed high crystallinity and thermostability at 1200–1400 °C. The sample characterizations were also carried out by means of infrared spectroscopy (IR), scanning electron microscopy (SEM) and specific surface areas analysis (BET method). Excitation spectra of Al 2 O 3 :Eu 3+ samples present broaden bands attributed to defects of Al 2 O 3 matrices and to LMCT state of O → Eu 3+ , however, the narrow bands are assigned to 7 F 0 → 5 D J , 5 H J and 5 L J transitions of Eu 3+ ion. Emission spectra of samples calcined up to 1000 °C show broaden bands for 5 D 0 → 7 F J transitions of Eu 3+ ion suggesting that the rare earth ion is in different symmetry sites showed by inhomogeneous line broadening of bands, confirming the predominance of the γ-alumina phase. For all samples heated from 1200 to 1400 °C the spectra exhibit narrow 5 D 0 → 7 F J transitions of Eu 3+ ion indicating the conversion of γ to α-Al 2 O 3 phases, a high intensity narrow peak around 695 nm assigned to R lines of Cr 3+ ion is shown. Al 2 O 3 :Eu 3+ heated up to 1100 °C presents an increase in the Ω 2 intensity parameter with the increase of temperatures enhancing the covalent character of metal–donor interaction. The disordered structural systems present the highest values of emission quantum efficiencies ( η ). CIE coordinates of Al 2 O 3 :Eu 3+ are also discussed.

Published

2008

24. Novel unexpected Tb3+ coordination polymer containing two carboxylate ligands: Syntheses, structure and photoluminescent properties

Author

Maria C.F.C. Felinto, Hermi F. Brito, Ercules E.S. Teotonio, Antonio Carlos Trindade, and Gerson M. Fett

Subjects

Materials science, Photoluminescence, Coordination polymer, Infrared spectroscopy, Triclinic crystal system, Photochemistry, Inorganic Chemistry, Crystal, chemistry.chemical_compound, Crystallography, chemistry, Materials Chemistry, Carboxylate, Physical and Theoretical Chemistry, Luminescence, Single crystal

Abstract

Novel unexpected coordination polymer [Tb(PHTHGLY)(CBGLY)(H2O)2](H2O)3 complex containing simultaneously N-phthaloylglycinate and N-(2-carboxybenzoyl)glycinate ligands has been prepared and characterized by single crystal X-ray structure, thermogravimetric analysis and infrared spectroscopy. The X-ray crystal diffraction indicates that the Tb3+-complex crystallizes in a triclinic crystal system and space group P 1 ¯ , forming a 1D polymer where carboxylate groups bridge the Tb3+ ions. The photoluminescence data revel that the ligands act as efficient “antennas” sensitizing the luminescence of the Tb3+ ion showing a strong green emission color arising from intraconfigurational 5D4 → 7FJ transitions (J = 0–6).

Published

2007

25. Highly enhanced luminescence of SrB4O7:Eu2+ phosphor prepared by the combustion method using glycine as fuel

Author

Cláudia A. Kodaira, Roberval Stefani, Alessandra de Souza Maia, Maria C.F.C. Felinto, Hermi F. Brito, and Ercules E.S. Teotonio

Subjects

Photoluminescence, Chemistry, Organic Chemistry, Inorganic chemistry, Phosphor, Combustion, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Ion, Inorganic Chemistry, chemistry.chemical_compound, Urea, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, Spectroscopy, Luminescence, Ammonium acetate

Abstract

Eu2+ ion doped into SrB4O7 matrix was prepared by combustion method heated at 900 °C in air, using urea (U) or glycine (G) as fuels in different ratios (U100, A10, A25, G10, G25, G75, and G100). In some compositions, ammonium acetate (AA) was used to reduce the exothermicity of combustion reaction. X-ray diffraction and luminescence spectroscopy were used to characterize the material. The high intense emission band at 367 nm is assigned to 4f65d → 4f7(8S7/2) transition arisen from divalent europium ion. It is observed that the interconfigurational transition is dependent on the molar ratio of glycine:urea fuels. Glycine fuel favors Eu2+ formation in SrB4O7 host lattice prepared by combustion method.

Published

2007

26. Low temperature synthesis of luminescent RE2O3:Eu3+ nanomaterials using trimellitic acid precursors

Author

Oscar L. Malta, Wagner M. Faustino, Danilo Mustafa, Ercules E.S. Teotonio, Hermi F. Brito, Maria C. F. C. Felinto, and Ivan G.N. Silva

Subjects

Thermogravimetry, TERRAS RARAS, chemistry.chemical_compound, Photoluminescence, Chemistry, Scanning electron microscope, Analytical chemistry, Trimellitic acid, Quantum yield, General Chemistry, Fourier transform infrared spectroscopy, Luminescence, Powder diffraction

Abstract

[RE(TLA)·(H2O)n:Eu3+] (RE3+: Y, Gd and Lu; TLA: trimellitic acid) precursor complexes were synthesized by an one step aqueous co-precipitation method. After annealing for 1 h, RE2O3:Eu3+ nanophosphors were formed through the benzenetricarboxylate low temperature thermolysis method (500-1000 oC). The compounds were characterized by using different techniques [elemental analysis (CHN), Fourier transform infrared spectroscopy (FTIR), thermogravimetry (TG/DTG), X-ray powder diffraction (XPD) and scanning electron microscope (SEM)]. The XPD data indicated that the Y2O3:Eu3+ materials have crystallite size range from 11 to 62 nm. The SEM and transmission electron microscopy (TEM) images show that the annealed materials keep morphological similarities with the precursor complexes. The photoluminescence properties were studied based on the excitation and emission spectra, and luminescence decay lifetimes of the 5D0 emitting level of the Eu3+ ion. The experimental intensity parameters (Ωλ), lifetimes (τ), as well as radiative (Arad) and non-radiative (Anrad) decay rates were calculated and discussed. The RE2O3:Eu3+ phosphors (RE: Y3+ and Lu3+) annealed at 500 to 1000 oC have emission quantum efficiency (intrinsic quantum yield) values from 60 to 82%, indicating that this material can be potentially used for optical markers applications.

Published

2015

27. The role of the ligand-to-metal charge-transfer state in the dipivaloylmethanate-lanthanide intramolecular energy transfer process

Author

Leide L. A. L Pereira, Hermi F. Brito, Maria C.F.C. Felinto, Ercules E.S. Teotonio, José H. P Barbosa, Yolanda C Miranda, Oscar L. Malta, and Wagner M. Faustino

Subjects

Lanthanide, chemistry.chemical_classification, LUMINESCÊNCIA, Chemistry, Ligand, Triboluminescence, Coordination complex, Inorganic Chemistry, chemistry.chemical_compound, Crystallography, Intramolecular force, Excited state, Luminescence, Triphenylphosphine oxide

Abstract

Two new bis(dipivaloylmethanate)nitrato-bis(triphenylphosphine oxide)lanthanide(III) complexes [Eu(dpm)2(NO3)(tppo)2] (1) and [Tb(dpm)2(NO3)(tppo)2] have been prepared in monomeric form. The structural behavior of these coordination compounds is significantly different from those of [Eu2(dpm)6] and [Tb2(dpm)6] dimeric complexes. The photoluminescent properties of the monomeric and dimeric complexes are dependent on the energy positions of the low-lying ligand-to-metal charge-transfer (LMCT) state, which may be correlated with the chelating and chelate bridging coordination modes of the dpm ligand, respectively. The monomeric complex presents higher luminescence intensity than the dimeric complex due to the higher energy of the LMCT state in this system. Although the excited energy levels of the EuIII ion in complex 1 undergo efficient depopulation by LMCT, the same is not observed for the 5D0 emitting level, which presents values of the emitting lifetime that are almost temperature independent. The triboluminescence phenomenon of the [Ln(dpm)2(NO3)(tppo)2] complex is also discussed.

Published

2015

28. Synthesis and luminescent properties of Eu3+-complexes with 2-acyl-1,3-indandionates (ACIND) and TPPO ligands: The first X-ray structure of Eu–ACIND complex

Author

Marco Cremona, Ercules E.S. Teotonio, Wagner M. Faustino, Regina Helena de Almeida Santos, Maria C.F.C. Felinto, Hermi F. Brito, Hans Viertler, Oscar L. Malta, and Gilberto F. de Sá

Subjects

Chemistry, Hydrogen bond, chemistry.chemical_element, Trigonal prismatic molecular geometry, Inorganic Chemistry, Crystallography, Intramolecular force, Materials Chemistry, Molecule, Physical and Theoretical Chemistry, Luminescence, Europium, Single crystal, Monoclinic crystal system

Abstract

Europium complexes presenting general formulas [Eu(ACIND)3(H2O)2] and [Eu(ACIND)3(TPPO)2] have been synthesized and characterized. In these formulas ACIND is stands for the ligands 2-acetyl-1,3-indandionate (AIND), 2-isovaleryl-1,3-indandionate (ISOVIND) or 2-benzyl-1,3-indandionate (BIND). The [Eu(ISOVIND)3(H2O)(EtOH)] complex was also prepared and its structure determined by single crystal X-ray analysis, showing that this complex crystallize in a monoclinic space group P21/n with the water molecules bridging through the hydrogen bond. The Eu(III) ion is eight-coordinate in a bicapped trigonal prismatic geometry defined by the oxygen donor atoms with a site of symmetry close to C2ν. Isovaleryl groups in the ISOVIND molecules in the structure are disordered over two positions of the europium complex. Carbon atoms in ethanol molecule are disordered by the thermal vibration. Photoluminescence properties of these complexes in solid state were investigated both experimentally and theoretically, suggesting an efficient ligand-to-metal intramolecular energy transfer process.

Published

2006

29. Photoluminescent behavior of SrB4O7:RE2+ (RE=Sm and Eu) prepared by Pechini, combustion and ceramic methods

Author

Hermi F. Brito, M.A.F. Monteiro, Maria C.F.C. Felinto, Roberval Stefani, Ercules E.S. Teotonio, and A. D. B. Maia

Subjects

Photoluminescence, Chemistry, Inorganic chemistry, Analytical chemistry, Phosphor, Condensed Matter Physics, Combustion, Molecular electronic transition, Electronic, Optical and Magnetic Materials, Ion, Inorganic Chemistry, visual_art, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Ceramic, Emission spectrum, Physical and Theoretical Chemistry, Luminescence

Abstract

This work reports the preparation of system containing RE2+ ions (RE=Sm and Eu)-doped in SrB4O7 matrix by ceramic, Pechini and combustion methods. These compounds were prepared by reduction of RE3+ to RE2+ in air, which exhibit some different features according to the preparation method. Photoluminescent properties of these systems were investigated based on the emission and excitation spectral data. The emission spectra of SrB4O7:Eu2+ system prepared by combustion and Pechini methods are characterized by a broad band assigned to interconfigurational 4f65d→4f7 transition, while SrB4O7:Sm2+ compound exhibit narrow emission bands arising from intraconfigurational-4f6 also shows 4G5/2→6HJ′ transitions ( J ′ = 5 2 , 7 2 , 9 2 and 11 2 ) arising from Sm3+ ion, transitions. SrB4O7:RE system prepared by combustion method presents emission bands from RE3+ ions as intense as that arising from RE2+, suggesting that the preparation route is not efficient for the reduction RE3+→RE2+ process. Emission quantum efficiency and radiative emission rates of Sm2+ ion are determined and discussed.

Published

2006

30. Red-green emitting and superparamagnetic nanomarkers containing Fe3O4 functionalized with calixarene and rare earth complexes

Author

Jorma Hölsä, Oscar L. Malta, Hermi F. Brito, Latif U. Khan, Kleber R. Pirota, Ercules E.S. Teotonio, Maria C. F. C. Felinto, and Diego Muraca

Subjects

TERRAS RARAS, ta114, Inorganic chemistry, Photochemistry, Nanomaterials, Inorganic Chemistry, chemistry.chemical_compound, Crystallinity, chemistry, Intramolecular force, Calixarene, Physical and Theoretical Chemistry, Luminescence, Bifunctional, ta116, Magnetite, Superparamagnetism

Abstract

The design of bifunctional magnetic luminescent nanomaterials containing Fe3O4 functionalized with rare earth ion complexes of calixarene and β-diketonate ligands is reported. Their preparation is accessible through a facile one-pot method. These novel Fe3O4@calix-Eu(TTA) (TTA = thenoyltrifluoroacetonate) and Fe3O4@calix-Tb(ACAC) (ACAC = acetylacetonate) magnetic luminescent nanomaterials show interesting superparamagnetic and photonic properties. The magnetic properties (M-H and ZFC/FC measurements) at temperatures of 5 and 300 K were explored to investigate the extent of coating and the crystallinity effect on the saturation magnetization values and blocking temperatures. Even though magnetite is a strong luminescence quencher, the coating of the Fe3O4 nanoparticles with synthetically functionalized rare earth complexes has overcome this difficulty. The intramolecular energy transfer from the T1 excited triplet states of TTA and ACAC ligands to the emitting levels of Eu(3+) and Tb(3+) in the nanomaterials and emission efficiencies are presented and discussed, as well as the structural conclusions from the values of the 4f-4f intensity parameters in the case of the Eu(3+) ion. These novel nanomaterials may act as the emitting layer for the red and green light for magnetic light-converting molecular devices (MLCMDs).

Published

2014

31. Preparation, crystal structure and optical spectroscopy of the rare earth complexes (RE3+=Sm, Eu, Gd and Tb) with 2-thiopheneacetate anion

Author

Victor G. Young, Larry C. Thompson, Ercules E.S. Teotonio, Oscar L. Malta, Hermi F. Brito, and Maria C.F.C. Felinto

Subjects

Chemistry, Organic Chemistry, Infrared spectroscopy, chemistry.chemical_element, Crystal structure, Analytical Chemistry, Inorganic Chemistry, Crystallography, Orthorhombic crystal system, Emission spectrum, Phosphorescence, Luminescence, Europium, Spectroscopy

Abstract

Rare earth complexes with the formulae Sm(TPAC)3·3H2O, Eu2(TPAC)6·5.25H2O and RE(TPAC)3·3.5H2O (where RE=Gd and Tb), and TPAC=2-thiopheneacetate) have been synthesized and characterized by complexometric titration, elemental analyses, infrared spectroscopy, and X-ray crystallography. Infrared data suggested the presence of both bridging and chelating TPAC anions. The crystal structure of the [Eu2(TPAC)6·(H2O)3]·2.25H2O complex in the solid state, determined by X-ray diffraction, revealed that it crystallizes in the orthorhombic crystal system (space group Aba2), with two crystallographically independent Eu3+ centers (Eu1 and Eu2). These europium centers are held together by one bidentate bridging and two tridentate bridging carboxylate groups. The existence of two Eu3+ centers was also supported by the emission spectrum. The luminescence properties of the RE–TPAC complexes were investigated by measuring the excitation and emission spectra, and the intramolecular ligand-to-rare earth energy transfer mechanisms were discussed. The emission spectra of the Eu3+ and Tb3+ ions displayed only narrow bands arising from 5D0→7F0 and 5D0→7F0–4 transitions, respectively, indicating an efficient luminescence sensitization of these ions by the TPAC ‘antenna’. On the other hand, the emission spectrum of the Sm3+-complex displayed a broad band from the phosphorescence of the TPAC ligand which overlapped the 4f5-intraconfigurational transitions. The theoretical intensity parameters Ωλ (λ=2 and 4), maximum splitting of the 7F1 state (ΔE) and the ratio between the 5D0→7F0 and 5D0→7F2 transition intensities (R02) were calculated based on the X-ray crystalline structure for the Eu3+-complex, and a comparison with experimental data were made. The emission quantum efficiency (η) of the D 5 emitting level of the Eu3+ ion was also determined.

Published

2005

32. Luminescence Investigations on Eu(III) Thenoyltrifluoroacetonate Complexes with Amide Ligands

Author

Hermi F. Brito, Ercules E.S. Teotonio, Cláudia A. Kodaira, Maria C.F.C. Felinto, and Oscar L. Malta

Subjects

Photoluminescence, Chemistry, Ligand, Analytical chemistry, chemistry.chemical_element, Ion, chemistry.chemical_compound, Amide, Materials Chemistry, Physical chemistry, Emission spectrum, Physical and Theoretical Chemistry, Europium, Luminescence, Acetanilide

Abstract

The influence of amide ligands on the photoluminescent behavior of tris(thenoyltrifluoroacetonate)- europium(III) in the solid state is reported. Elemental analysis showed that these compounds have the following formulas [Eu(TTA)3·(ANL)2] and [Eu(TTA)3·PZA], where ANL = acetanilide and PZA = pyrazinamide. The photoluminescence spectra of the complexes recorded in the range 420-720 nm at 77 K show narrow bands arising from the 5D0 → 7F J transitions (where J = 0-4), under excitation at 394 nm. Based on the emission spectra and luminescence decay curves the intensity parameters (Ωλ), lifetime (τ) and emission quantum efficiency (η) were determined. The Ω2 values indicate that the Eu3+ion in these complexes is in a highly polarizable chemical environment. The higher value of η (60%) obtained for the complex with the ANL ligand, in comparison with the complex with the PZA ligand (30%), indicates a more efficient deactivation of the Eu3+ion in the [Eu(TTA)3·PZA] complex.

Published

2003

33. Luminescence investigation of the Sm(III)-β-diketonates with sulfoxides, phosphine oxides and amides ligands

Author

C. F. B. Silva, Hermi F. Brito, Carlos Alberto de Carvalho, Ercules E.S. Teotonio, Maria C.F.C. Felinto, Claudia Satiko Tomiyama, J.F.S. Menezes, and Oscar L. Malta

Subjects

Diketone, chemistry.chemical_classification, Lanthanide, Phosphine oxide, Samarium, Luminescence, Sulfoxides and amides, Chemistry, Mechanical Engineering, Metals and Alloys, chemistry.chemical_element, Photochemistry, Thenoyltrifluoroacetonate, Coordination complex, Crystallography, chemistry.chemical_compound, Mechanics of Materials, Materials Chemistry, Triplet state, Phosphine

Abstract

In this paper we report on a photoluminescent investigation of complexes involving Sm 3+ -β-diketonates with sulfoxides, phosphine oxides and amides ligands. In the synthesis of the coordination compounds we used samarium tris(thenoyltrifluoroacetonate) dihydrated precursor with the following ligands (L): DBSO and PTSO sulfoxides; TPPO phosphine oxide and (PHA) N -phenylacetamide. They have shown high orange luminescence characteristic of the Sm 3+ ion. The emission spectra of the Sm 3+ -complexes present narrow bands arising from the 4 G 5/2 → 6 H J ( J =5/2, 7/2, 9/2, 11/2) transitions with the hypersensitive 4 G 5/2 → 6 H 9/2 transition as a prominent group. It is observed an efficient intramolecular energy transfer from the triplet state (T) of the ligands to the emitting 4 G 5/2 state of the Sm 3+ ion. The experimental intensity parameters ( η Sm and η Eu ) for the Sm and Eu complexes have been determined and compared. The lifetimes ( τ ) of the emitting level 4 G 5/2 of the Sm-complexes are approximately 10 times higher than in the precursor compound [Sm(TTA) 3 ·(H 2 O) 2 ] indicating that radiative processes are operative in all the compounds due to the absence of multiphonon relaxation by coupling with the OH oscillators.

Published

2002

34. Steady-state luminescence investigation of the binding of Eu(III) and Tb(III) ions with synthetic peptides derived from plant thionins

Author

Marcelo P. Bemquerer, Hermi F. Brito, Carlos Bloch, M. Terêsa M. Miranda, and Ercules E.S. Teotonio

Subjects

Lanthanide, Quenching (fluorescence), Photoluminescence, Chemistry, Metal ions in aqueous solution, Inorganic chemistry, chemistry.chemical_element, Terbium, Plants, Biochemistry, Ion, Inorganic Chemistry, Crystallography, Europium, Luminescent Measurements, Amino Acid Sequence, Peptides, Luminescence, Plant Proteins

Abstract

This work reports Eu(III) and Tb(III) luminescence titrations in which the lanthanide ions were used as spectroscopic probes for Ca(II) ions to determine the metal binding ability of Ac–NESVKEEGGW–NH 2 and Ac–NESVKEDGGW–NH 2 . These decapeptides correspond to the putative calcium binding region of the plant antifungal proteins SI-α1 from Sorghum bicolor and of Zeathionin from Zea mays , respectively. The luminescence spectra for the Eu(III)–decapeptide system (red emission) with the excitation at the Trp band at 280 nm showed an enhancement of the intensities of the 5 D 0 → 7 F J transitions (where J =0–4) with increments of Eu(III) ion concentration. The photoluminescence titration data of the terbium ion (green emission) in the decapeptide solutions showed intensification of the 5 D 4 → 7 F J transitions ( J =0–6), similar to that observed for the Eu(III) ion. Thus, energy transfer from Ac–NESVKEEGGW–NH 2 and Ac–NESVKEDGGW–NH 2 to the trivalent lanthanide ions revealed that these peptides are capable of binding to these metal ions with association constants of the order of 10 5 M −1 . The amino acid derivative Ac–Trp–OEt also transferred energy to Tb(III) and Eu(III) ions as judged from the quenching of tryptophan luminescence. However, the energy transfers were significantly lower. Taken together the luminescence titration data indicated that Ac–NESVKEEGGW–NH 2 and Ac–NESVKEDGGW–NH 2 bind efficiently to both trivalent lanthanide ions and that these ions may be used as probes to distinguish an anionic peptide from a neutral amino acid derivative.

Published

2002

35. Novel Luminescent Eu3+-Indandionate Complexes Containing Heterobiaryl Ligands

Author

Juliana A. Vale, Wagner M. Faustino, Hermi F. Brito, João Modesto Filho, José G.P. Espínola, Jannine C. Silva, Ercules E.S. Teotonio, and Maria C. F. C. Felinto

Subjects

Lanthanide, Crystallography, Thermogravimetric analysis, Photoluminescence, Stereochemistry, Chemistry, Infrared spectroscopy, Molecule, Quantum efficiency, Spontaneous emission, General Chemistry, Luminescence

Abstract

Novel Ln3+-indandionate complexes of formulas [Ln(aind)3L(H2O)] and [Ln(bind)3L]∙H2O (L: 1,10-phenanthroline (phen) or 4,7-dimethyl-1,10-phenanthroline (dmphen), Ln3+: Eu3+ or Gd3+, aind: 2-acetyl-1,3-indandionate and bind: 2-benzoyl-1,3-indandionate) were synthesized and characterized by elemental analysis, infrared spectroscopy, and thermogravimetric analyses. The characterization data are consistent with the presence of a water lattice molecule in the [Ln(bind)3L]∙H2O compounds. However, the data also suggest that the water acts as a coordinated molecule in the [Ln(aind)3L(H2O)] ones. Theoretical geometries of the Eu3+-complexes have been optimized via the SPARKLE/AM1 Model for lanthanide complexes that are consistent with their luminescence experimental data. The photoluminescence properties of the Eu3+-compounds have been discussed in terms of experimental intensity parameters (Ω2 and Ω4), radiative (Arad), and non-radiative (Anrad) spontaneous emission coefficients. The higher values of emission quantum efficiency (η) of the [Eu(bind)3L]∙H2O compounds reflect the absence of luminescence-quenching water molecule in their first coordination spheres.

Published

2014

36. Energy transfer processes in Tb(III)-dibenzoylmethanate complexes with phosphine oxide ligands

Author

Helenise A. Nascimento, Dariston K. S. Pereira, Francisco de Assis da Silva, Maria C.F.C. Felinto, Gilberto F. de Sá, Wagner M. Faustino, Hermi F. Brito, José G.P. Espínola, and Ercules E.S. Teotonio

Subjects

Phosphine oxide, energy transfer, Photoluminescence, Chemistry, Ligand, phosphine oxide, Inorganic chemistry, Oxide, General Chemistry, terbium(III), chemistry.chemical_compound, β-diketonate, Physical chemistry, Fourier transform infrared spectroscopy, Luminescence, Phosphorescence, Triphenylphosphine oxide

Abstract

The Tb3+-β-diketonate complexes [Tb(DBM)3L], [Tb(DBM)2(NO3)L2] and [Tb(DBM)(NO3)2(HMPA)2] (DBM = dibenzoylmethanate; L: TPPO = triphenylphosphine oxide or HMPA = hexamethylphosphine oxide) were prepared and characterized by elemental analysis (CHN), complexometric titration with EDTA and Fourier transform infrared (FTIR) spectroscopy, and the photoluminescence properties evaluated. The triplet state energies of the coordinated DBM ligands were determined using time-resolved phosphorescence spectra of analogous Gd3+ complexes. The results show that the energies increase along with the number of coordinated nitrate anions replacing the DBM ligand in the complexes. The luminescence spectra and emission lifetime measurements revealed that the ligand-to-metal energy transfer efficiency follows the same tendency. Unlike the tris-DBM complexes, bis- and mono-DBM presented high luminescence, and may act as promising candidates for preparation of the emitting layer of light converting molecular devices (LCMDs). Este trabalho relata a síntese, a caracterização e as propriedades luminescentes dos complexos de fórmulas [Tb(DBM)3L], [Tb(DBM)2(NO3)L2)] e [Tb(DBM)(NO3)2(HMPA)2)] (DBM = dibenzoilmetanato; L: TPPO = óxido de trifenilfosfina ou HMPA = óxido de hexametilfosforamida). Os compostos foram caracterizados por análise elementar (CHN), titulação complexométrica com EDTA e espectroscopia no infravermelho com transformada de Fourier (FTIR), e as propriedades de fotoluminescência foram avaliadas. As energias dos estados tripletos do ligante DBM foram determinadas experimentalmente a partir dos espectros de fosforescência resolvidos no tempo dos compostos análogos do íon Gd3+. As energias aumentam em função do número de ânions nitratos que substituem o ligante DBM nos complexos. Ademais, os espectros de luminescência e os tempos de vida dos níveis emissores revelaram que a eficiência de transferência de energia ligante-metal segue a mesma tendência. Ao contrário dos complexos tris-DBM, o bis- e o mono-DBM apresentaram elevada intensidade de luminescência, sendo candidatos promissores para camadas emissoras de luz em dispositivos moleculares conversores de luz (LCMD).

Published

2013

37. Structure and luminescent investigation of the Ln(III)–β-diketonate complexes containing tertiary amides

Author

Alan R. Kennedy, Rodolfo Moreno Fuquen, Hermi F. Brito, Denise Gilmore, Maria C.F.C. Felinto, Gilberto F. de Sá, Israel F. Costa, Wagner M. Faustino, Regina Helena de Almeida Santos, and Ercules E.S. Teotonio

Subjects

LUMINESCÊNCIA, Inorganic chemistry, chemistry.chemical_element, Infrared spectroscopy, Crystal structure, Triclinic crystal system, Complexometric titration, Dimethylacetamide, Inorganic Chemistry, Crystallography, chemistry.chemical_compound, chemistry, Materials Chemistry, Dimethylformamide, Physical and Theoretical Chemistry, Europium, Luminescence

Abstract

The synthesis and photoluminescent properties of Ln(III)-thenoyltrifluoroacetonate and dibenzoylmethanate complexes (Ln = Eu(III) and Gd(III) ions) containing tertiary amides such as dimethylacetamide (DMA), dimethylformamide (DMF), and dimethylbenzamide (DMB) as neutral ligands are reported. The Ln complexes were characterized by elemental analysis, complexometric titration with EDTA, and infrared spectroscopy. Single-crystal X-ray structure data of the [Eu(DBM)(3).(DMA)] compound indicates that this complex crystallizes in the triclinic system, space group PT with the following cell parameters: a = 10.2580(3) angstrom, b = 10.3843(2) angstrom, c= 22.3517(5) angstrom, alpha = 78.906(2)degrees, beta = 78.049(2)degrees, lambda= 63.239(2)degrees, V= 2066.41(9) angstrom(3), and Z = 2. The coordination polyhedron for the Eu(III) complex may be described as an approximate C-2v distorted monocapped trigonal prism. The optical properties of the Eu(III) complexes were studied based on the intensity parameters and luminescence quantum yield (q). The values of the ohm(2) parameter of the Eu-DBM complexes are larger than those for the Eu-TTA complexes, indicating that the Eu(III) ion is in a more polarizable chemical environment in the former case. The geometries of the complexes have been optimized by using the Sparkle Model, and the results have been used to perform theoretical predictions of the ligand-to-metal energy transfer via direct and exchange Coulomb mechanisms. (C) 2012 Elsevier Ltd. All rights reserved.

Published

2012

38. Luminescence Phenomena Involving Metal Enolates

Author

Ercules E.S. Teotonio, Oscar L. Malta, Hermi F. Brito, and Maria C.F.C. Felinto

Subjects

Metal, Photoluminescence, Chemistry, visual_art, visual_art.visual_art_medium, Luminescence, Photochemistry, Block (periodic table), Ion energy

Abstract

1 Introduction 2 Metal Enolates 3 Luminescence of Rare-Earth Enolates 4 Luminescence Involving s, p and d Metal Block Enolates 5 Applications 6 Acknowledgments Keywords: luminescence phenomena involving metal enolates; chemistry of metal β-diketonate complexes; luminescence of rare-earth enolates; photoluminescence of rare-earth β-diketonates; diketonate ligand–rare-earth ion energy transfer rates; luminescence involving s, p and d metal block enolates; photoluminescence of d-transition metal enolates; applications - time-resolved detection of luminescence for bioassays

Published

2010

39. Photoluminescence behavior of the Sm3+ and Tb3+ ions doped into the Gd2(WO4)3 matrix prepared by the Pechini and ceramic methods

Author

G. E. S. Brito, Hermi F. Brito, Cláudia A. Kodaira, Ercules E.S. Teotonio, Maria C.F.C. Felinto, and Oscar L. Malta

Subjects

Materials science, Photoluminescence, terbium, Analytical chemistry, chemistry.chemical_element, Infrared spectroscopy, Terbium, General Chemistry, Ion, chemistry.chemical_compound, Pechini and ceramic methods, Tungstate, chemistry, tungstate, photoluminescence, Emission spectrum, samarium, Luminescence, Europium

Abstract

The Gd2(WO4)3:RE3+ compounds (where RE3+ = Sm and Tb) were prepared by the Pechini and ceramic methods and characterized by X-ray diffraction and infrared spectroscopy. These rare earth materials present high orange (Sm3+-compound) and green (Tb3+-compound) luminescence intensity under UV radiation. The excitation spectra of these compounds presented broad bands arising from ligand-to-metal charge transfer (O->W and O->RE3+) and narrow bands from 4f-intraconfigurational transitions. The excitation spectra of Tb3+ system also exhibit broad bands attributed to the interconfigurational transition (4f-5d). The emission spectra exhibited the 4G5/2->6H J (J = 5/2, 7/2, 9/2 and 11/2) and 5D4-> 7F J (J = 0-6) transitions (direct excitation), for the systems doped with Sm3+ and Tb3+, respectively, while a broad band assigned to the LMCT (O->W) is observed when the excitation is monitored on the O->W LMCT state around 270 nm. The experimental intensity parameters etaSm and etaEu present similar behaviors, suggesting that the Sm3+ ion is in a highly polarizable chemical environment with similar covalent character of the metal-donor atom interaction to the tungstate doped europium system. The cross-relaxation process from the 5D3 to the 5D4 levels of the Gd2(WO4)3:Tb3+ system has been also reported. Os compostos Gd2(WO4)3:RE3+ (onde RE = Sm e Tb) preparados via métodos Pechini e cerâmico foram caracterizados por difratometria de raios-X e espectroscopia de absorção na região do infravermelho. Estes materiais de terras raras apresentam alta intensidade luminescente, laranja para os compostos de Sm3+ e verde para os de Tb3+, quando excitados com radiação UV. Os espectros de excitação dos compostos mostraram bandas largas oriundas da transferência de carga ligante-metal (O->W e O->RE3+) e bandas estreitas associadas às transições intraconfiguracionais (4f-4f). Os espectros de excitação do sistema com Tb3+ também exibiram bandas largas atribuídas à transição interconfiguracional (4f-5d). Quando os espectros de emissão dos compostos contendo Sm3+ e Tb3+ são obtidos com excitação no íon observa-se somente transições finas 4G5/2->6H J (J = 5/2, 7/2, 9/2 e 11/2) e 5D4-> 7F J (J = 0-6). Por outro lado, quando a excitação é monitorada na banda de transferência de carga (BTC, 270 nm) são também observadas bandas largas atribuídas a BTC (O->W). Os parâmetros de intensidade experimentais, etaSm e etaEu, apresentaram comportamentos similares, sugerindo que o íon Sm3+ encontra-se em um ambiente químico altamente polarizável e que o caráter covalente da interação metal-ligante é semelhante àquele do sistema tungstato de európio. O processo de relaxação cruzada baseado nos níveis 5D3 e 5D4 do sistema Gd2(WO4)3:Tb³ foi reportado.

Published

2004

40. Synthesis and spectroscopic behavior of highly luminescent Eu(3+)-dibenzoylmethanate (DBM) complexes with sulfoxide ligands

Author

Maria C.F.C. Felinto, Hermi F. Brito, Marco Cremona, R. Reyes, G. E. S. Brito, Ercules E.S. Teotonio, and E. Niyama

Subjects

Dibenzoylmethane, Photochemistry, Quantum yield, chemistry.chemical_element, Ligands, Analytical Chemistry, chemistry.chemical_compound, Europium, Safrole, Organometallic Compounds, Molecule, Instrumentation, Spectroscopy, Quenching (fluorescence), Molecular Structure, Chemistry, Ligand, Temperature, Water, Sulfoxide, Atomic and Molecular Physics, and Optics, Spectrometry, Fluorescence, Luminescent Measurements, Physical chemistry, Luminescence

Abstract

In this paper the synthesis, characterization and photoluminescent behavior of the [RE(DBM)3L2] complexes (RE=Gd and Eu) with a variety of sulfoxide ligands; L=benzyl sulfoxide (DBSO), methyl sulfoxide (DMSO), phenyl sulfoxide (DPSO) and p-tolyl sulfoxide (PTSO) have been investigated in solid state. The emission spectra of the Eu(3+)-beta-diketonate complexes show characteristics narrow bands arising from the 5D0-->7F(J) (J=0-4) transitions, which are split according to the selection rule for C(n), C(nv) or C(s) site symmetries. The experimental Judd-Ofelt intensity parameters (Omega2 and Omega4), radiative (A(rad)) and non-radiative (A(nrad)) decay rates, and R02 for the europium complexes have been determined and compared. The highest value of Omega2 (61.9x10(-20)cm2) was obtained to the complex with PTSO ligand, indicating that Eu3+ ion is in the highly polarizable chemical environment. The higher values of the experimental quantum yield (q) and emission quantum efficiency of the emitter 5D0 level (eta) for the Eu-complexes with DMSO, DBSO and PTSO sulfoxides suggest that these complexes are promising Light Conversion Molecular Devices (LCMDs). The lower value of quantum yield (q=1%), for the hydrated complex [Eu(DBM)3H2O], indicates that the luminescence quenching occurs via multiphonon relaxation by coupling with the OH-oscillators from water molecule coordinated to rare earth ion. The pure red emission of the Eu-complexes has been confirmed by (x, y) color coordinates.

Published

2004

41. Synthesis and photophysical study of highly luminescent coordination compounds of rare earth ions with thenoyltrifluoroacetonate and AZT

Author

Ercules E.S. Teotonio, Jivaldo do Rosário Matos, Oscar L. Malta, Silvia Storpirtis, Celly M. S. Izumi, Hermi F. Brito, and Adriano Antunes de Souza Araújo

Subjects

chemistry.chemical_classification, Stereochemistry, Anti-HIV Agents, Photochemistry, Spectrum Analysis, Temperature, chemistry.chemical_element, Infrared spectroscopy, Biochemistry, Complexometric titration, Coordination complex, Inorganic Chemistry, chemistry, Luminescent Measurements, Organometallic Compounds, Molecule, Physical chemistry, Metals, Rare Earth, Thermal analysis, Europium, Luminescence, Zidovudine, Powder diffraction, Thenoyltrifluoroacetone

Abstract

This work presents the study of the interaction between zidovudine (AZT) and rare earth (RE) ions with thenoyltrifluoroacetonate (TTA). The complexes [RE(TTA)(3) x (AZT)(2)] (where RE(III)=Eu and Gd) were prepared by reaction between the [RE(TTA)(3) x (H(2)O)(2)] precursors and AZT dissolved in acetone in the molar ratio 1:2. The obtained luminescent materials were characterized by microanalyses (C, H, N), complexometric titration, IR spectroscopy, X-ray powder diffraction and thermal analysis (DSC and TG/DTG). The luminescence data indicate that the substitution of the two water molecules by AZT in the europium complex causes an intensification of luminescence corresponding to the (5)D(0) --(7)F(J) (J=0-4) transitions associated with one of the site symmetries. Based on the luminescence spectrum of the Eu(III)-compound the Omega(lambda) experimental intensity parameters (lambda=2 and 4) were calculated for the electronic transitions (5)D(0)--(7)F(2, 4). The Omega(2) intensity parameter for this new compound is higher than for the precursor compound, suggesting an effective interaction between the AZT and the chemical environment of the Eu(III) ion. Luminescence data confirm that the AZT complex and precursor compound have a comparable emission quantum efficiency.

Published

2001