Optical properties of Eu(fod)3-doped polymers using supercritical carbon dioxide

Gerasimova, V. I.; Zavorotny, Yu. S.; Рыбалтовский, А. О.; Chebrova, A.; Semenova, N. L.; Lemenovskii, D. A.; Slovohotov, Yu.L.

doi:10.1016/j.jlumin.2009.01.018

Journal of Luminescence

2009

DOI: 10.1016/j.jlumin.2009.01.018

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Optical properties of Eu(fod)3-doped polymers using supercritical carbon dioxide

V. I. Gerasimova

Yu. S. Zavorotny

А. О. Рыбалтовский

et al.

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Cited by 12 publications

(17 citation statements)

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“…The fabrication of various planar optical devices (including sensors and opto-electronic elements) based on modern polymers has recently become a priority [1]. An effective approach to controlled modification of polymer optical properties is supercritical fluid (SCF) impregnation by molecular compounds [2] including rareearth element (REE) β-diketonates [3,4]. The important physical properties of this type of compounds relate to the sensitization of REE photoluminescence (PL) in the visible wavelength range through transfer of excitation energy from the ligand π * -level into the corresponding closely lying trivalent REE 4f-levels (antenna effect) [1].…”

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“…REE typically have high coordination numbers [10]. Therefore, they can compensate for their coordinative unsaturation in β-diketonates, for example, by adding H 2 O molecules [3]. We studied the effect of the hydrophobic phen ligand on the luminescent characteristics of starting Eu(bta) 3 (H 2 O) 2 because it readily replaces H 2 O molecules in the coordination sphere of the cations and prevents H 2 O molecules from re-entering the complex from the environment.…”

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confidence: 99%

“…Eu(bta) 3 (H 2 O) 2 and Eu(bta) 3 phen were synthesized using Eu(Cl) 3 , phen, and bta (Aldrich Chemical Company, USA). Polycrystalline powders (PCPs) were placed into 1-mm glass capillaries during the spectral studies.…”

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confidence: 99%

“…FAP composed of 75% bifunctional {[CH 2 =CH-COOCH 2 ] 2 (CF 2 ) 4 } and 25% monofunctional [CH 2 =CH-COOCH(CF 2 ) 8 H] units contained Irgakur 651 photoinitiator (0.6%, 2,2-dimethoxy-1,2-diphenylethan-1-one). Eu(bta) 3 (H 2 O) 2 and Eu(bta) 3 phen were added to the FAP films using SCF technology. PCPs and films were placed simultaneously into the SCF reactor.…”

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confidence: 99%

“…Absorption spectra were recorded in the range 200-400 nm using a DDS-30 deuterium lamp. The PL excitation channel consisted of an LD(D)-400 deuterium lamp combined with an MDR-12 monochromator (spectral slit width 13.6 nm, λ em = 300 nm) or an NSHU590 UV light diode (Nichia Corp., Japan) with emission wavelength maximum 380 nm and half-width 0.1 eV (12 nm) 2 and Eu(bta) 3 phen in EtOH (2,3) and in FAP (4,5), and Eu(bta) 3 phen and phen in EtOH (6, 7); difference of spectra 5 and 1 (8); solution concentration 5⋅10 16 cm -3 .…”

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Photoluminescence of fluoroacrylate polymers impregnated with Eu(bta)3 using supercritical CO2

et al. 2012

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Optical properties (photoluminescence and absorption) of Eu(bta) 3 (B) n (B = H 2 O or 1,10-phenanthroline) polycrystalline powders and fluoroacrylate polymers (FAPs) impregnated with these compounds using supercritical CO 2 (SC CO 2 ) were investigated. It was established that impregnation of Eu(bta) 3 phen into the FAPs using an SC CO 2 solution was difficult to achieve. The type of B (ancillary ligand) and the polymer matrix were shown to influence the temperature quenching of photoluminescence of Eu 3+ ions in the range 25-100 o C. A comparative analysis of quantum yields (λ ex = 300 and 380 nm) and photoluminescence decay times (λ ex = 337.1 nm) for Eu(bta) 3 B n and for Eu(bta) 3 Bn-doped FAPs was performed.Introduction. The fabrication of various planar optical devices (including sensors and opto-electronic elements) based on modern polymers has recently become a priority [1]. An effective approach to controlled modification of polymer optical properties is supercritical fluid (SCF) impregnation by molecular compounds [2] including rareearth element (REE) β-diketonates [3,4]. The important physical properties of this type of compounds relate to the sensitization of REE photoluminescence (PL) in the visible wavelength range through transfer of excitation energy from the ligand π * -level into the corresponding closely lying trivalent REE 4f-levels (antenna effect) [1]. Broad absorption bands (of the order of several eV) due to intraligand π−π * -transitions located in the near-UV spectral range are characteristic of REE β-diketonates [5, 6]. The crystal structures and optical properties of complexes such as (Dy, Tm)(bta) 3 phen (bta = 4,4,4-trifluoro-1-phenylbutan-1,3-dione; phen = 1,10-phenanthroline) [7] and Eu(fod) 3 (fod = 6,6,7,7,8,8,8-heptafluoro-2,2-dimethyl-3,5-octanedione) [3] are now well studied. The ability to use Eu(bta) 3 bipy (bipy = 2,2′-bipyridyl) and Tb(bta) 3 phen as light diodes and UV dosimeters was also demonstrated [5].Fluoroacrylate polymers (FAPs) are attractive because of their broad transparent window in the near UV and visible ranges and high thermal stability [4,8]. These useful properties make them exceedingly promising materials for fabricating novel optical elements. Intense red PL appears after SCF impregnation of Eu β-diketonates in these polymer films. The excitation sources can be incoherent emitters, e.g., UV light diodes or gas-discharge lamps, which can be useful for a whole range of practical applications. Comprehensive studies of SCF processes for modifying FAPs were performed as a function of matrix composition (chemical structure of mono-and bi-functionals, their percent content) [4]. Several features of preparing films with the maximum content of Eu β-diketonates were established.Herein processes for modifying the optical properties of highly amorphous FAPs by SCF impregnation of them with Eu(bta) 3 B n compounds (B = H 2 O or phen) are investigated. The mechanisms for relaxation of excited states of the molecules are studied. Also, the roles of the ligands and ...

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confidence: 99%

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confidence: 99%

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Photoluminescence of fluoroacrylate polymers impregnated with Eu(bta)3 using supercritical CO2

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Synthesis and Characterization of Highly Luminescent Copolymers of Methyl Methacrylate and Eu‐Complexed 5‐Acryloxyethoxymethyl‐8‐hydroxyquinoline

2010

Macro Chemistry & Physics

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Highly luminescent Eu‐containing copolymers were synthesized through the copolymerization of Eu‐complex monomer featuring TTA and 5‐acryloxyethoxymethyl‐8‐hydroxyquinoline with MMA, and characterized by FT‐IR, UV–Vis, GPC, TGA, and DSC. The results indicated that the copolymers have not only a good solubility, thermal stability, and high glass transition temperatures, but also an intense red emission at 612 nm, corresponding to the 5D0 → 7F2 transition of Eu(III) ions under UV excitation. Compared with the Eu‐complex monomer, the Eu‐copolymers exhibited much higher luminescence lifetimes and efficiencies. Moreover, the luminescence intensities of the copolymers were much higher than those of the Eu‐complex/poly(methyl methacrylate) blend system at the same Eu content, and increased nearly linearly with an increase in the Eu content within 5.33 wt.‐%, and no significant concentration quenching phenomenon was observed at the Eu content up to 10.72 wt.‐%. In the blend system, however, the linear relationship between the luminescence intensity and Eu content was observed within 3.30 wt.‐%, and then the blend system showed typical emission concentration quenching on further increase in the Eu content. The improvement of the luminescence properties for the copolymers may be attributed to the special microenvironment, in which the Eu‐complex units are uniformly bonded to and surrounded by the polymer chain. These excellent photoluminescence properties may enable the novel copolymers to be used as pure red‐emitting materials.magnified image

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Synthesis of luminescent polycarbonate grafted with methyl methacrylate/europium complex using supercritical CO2 technology as a green chemistry method

et al. 2012

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Modification of polymers using supercritical carbon dioxide (scCO 2 ) impregnation technology is an advantageous method for imparting desirable properties into a new polymer formulation without the architecture of the material being affected. Methyl methacrylate (MMA) and acrylic complex of europium [Eu(TTA) 3 AA] were impregnated on polycarbonate (PC) in the scCO 2 phase. There was an increase in the amount of grafted Eu(TTA) 3 AA complex up to 6 h of impregnation, reaching 0.24% of grafting. For longer times of grafting, it was observed a small decrease in the amount of Eu(TTA) 3 AA complex in the PC polymer. On the other hand, the total amount of grafted MMA/Eu(TTA) 3 AA monomers increased for up to 10 h of impregnation. The PC-g-MMA/Eu(TTA) 3 AA copolymers showed appreciable luminescence emission at room temperature. Furthermore, the SEM images show that there was no formation of agglomerates in the structure of the copolymers over the grafting process, suggesting a excellent distribution of Eu(TTA) 3 AA complex in the copolymer matrix.

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Optical properties of Eu(fod)3-doped polymers using supercritical carbon dioxide

Cited by 12 publications

References 12 publications

Photoluminescence of fluoroacrylate polymers impregnated with Eu(bta)3 using supercritical CO2

Photoluminescence of fluoroacrylate polymers impregnated with Eu(bta)3 using supercritical CO2

Synthesis and Characterization of Highly Luminescent Copolymers of Methyl Methacrylate and Eu‐Complexed 5‐Acryloxyethoxymethyl‐8‐hydroxyquinoline

Synthesis of luminescent polycarbonate grafted with methyl methacrylate/europium complex using supercritical CO2 technology as a green chemistry method

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