Preparation of Eu(<scp>iii</scp>) acetylacetonate-doped well-defined titania particles with efficient photoluminescence properties

Shiba, Kota; Kataoka, Takuya; Tagaya, Motohiro

doi:10.1039/c7dt03035e

Cited by 8 publications

(9 citation statements)

References 30 publications

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“…It is evident that the crystal lattice distortion rises with doping, as we predicated because of insertion of Eu +3 ions into the TiO 2 structure. Similar results were observed by Pal .et al 39 The microstrain (ε) of the prepared un doped and TiO 2 : Eu 3+ thin films can be calculated from the relation (13): 40 (13) It is observed that microstrain decrease with increasing doping concentration, which imply decrease in defect, is due to the motion of the interstitial atoms from their grain boundary to the crystals.…”

Section: Electrical Studiessupporting

confidence: 80%

“…However, Amorphous titania particles doped with Eu(III) acetylacetonate with atypical molar Eu/Ti ratios are elaborated at concentration of Eu = 0.125, 0.5, 2.0 and 5.0 using sol gel method was studied. 13 It was observed that ideal Eu/Ti value (0.5) that displayed greatest luminescence. Moreover, the Eu (acac) 3 doping is suitable for optoelectronic, organic, and environmental purposes.…”

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confidence: 96%

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Synthesis and characterization of Eu3+ doped TiO2 thin films deposited by spray pyrolysis technique for photocatalytic application

Alshomar¹

2020

Preprint

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In this study, nanocrystalline TiO 2 : Eu 3+ thin films are successfully formed by spray pyrolysis technique deposited on glass substrate. Optical, electrical, structure, surface morphology, and photocatalytic degradation of Methylene blue have been examined. The optical properties of the films are analyzed using transmittance and reflectance spectra, which are measured using UV-Vis-NIR double-beam spectrophotometer. Optical properties such as refractive index (n), extinction coefficient (k), optical conductivity (σ) and Urbach energy (E u ) have been calculated as a function of Eu 3+ concentration. Film thickness were evaluated using the refractive index dependence on wavelength . The films thickness were determined as 97.13, 122.62, 123.24, 117.14 and 128.25 nm, respectively, for Eu doped TiO 2 at 0,4, 6, 8 and 10 wt % doping concentration. The band gap values raised from 3.29 to 3.42 eV with increasing the Eu 3+ dopant concentration. The highest electrical conductivity was found to be 3.01x10 -2 (Ω.cm) -1 at high doping level with 10 wt% Eu 3+ . The XRD analysis illustrate the tetragonal crystal structure of films with anatase phase and reduces crystallite size linearly with increasing Eu 3+ concentration. Scanning electron microscopy (SEM) analysis indicated consistent allocation of irregular and spherical shaped grains covering the substrate surface. The average grain size in range of 82.5 – 51.1 nm is observed and films show porous nature. The photocatalytic effect of TiO 2 : Eu 3+ thin films is predicted from the degradation of methylene blue (MB) at room temperature under UV light irradiation. An enhancement in photocatalytic degradation observed by increasing the amount of Eu 3+ due to increase in the e/h pair production and increase of ﬁlm thickness. These results make TiO 2 : Eu 3+ thin films as attractive candidate for photovoltaic cells and other optoelectronic device applications

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Section: Electrical Studiessupporting

confidence: 80%

mentioning

confidence: 96%

Synthesis and characterization of Eu3+ doped TiO2 thin films deposited by spray pyrolysis technique for photocatalytic application

Alshomar¹

2020

Preprint

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“…To meet all these demands, fluorescent nanoporous amorphous titania submicron particles with a narrow particle size distribution can be a promising DDS carrier. Titania is known as a bioinert ceramic − and thus has been used for biomedical applications − through the formation of a nanoporous structure which allows for accommodating fluorescent species. In general, DDS carriers are required to be water dispersible at around the biological pH range (pH = 7) and to achieve the controlled release of drug molecules.…”

Section: Introductionmentioning

confidence: 99%

“…To overcome this barrier, we have employed a microfluidic technique which enabled us to obtain well-defined titania–octadecylamine (ODA) hybrid submicron particles containing various functional units. More specifically, the titania–ODA hybrid particles have been functionalized with such species as fluorescein, iron(III) acetylacetonate, and europium(III) acetylacetonate (Eu(acac) 3 ) . Furthermore, ODA is removed from the hybrid particles to form nanoporous amorphous titania submicron particles and realize the improved dispersibility in biological solution .…”

Section: Introductionmentioning

confidence: 99%

“…More specifically, the titania−ODA hybrid particles have been functionalized with such species as fluorescein, 19 iron(III) acetylacetonate, 20 and europium(III) acetylacetonate (Eu(acac) 3 ). 21 Furthermore, ODA is removed from the hybrid particles to form nanoporous amorphous titania submicron particles and realize the improved dispersibility in biological solution. 24 However, both the fluorescent property and the drug loading into the nanoporous submicron particle carrier have not been achieved so far with the monodispersed amorphous titania.…”

Section: ■ Introductionmentioning

confidence: 99%

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Preparation of Monodispersed Nanoporous Eu(III)/Titania Loaded with Ibuprofen: Optimum Loading, Luminescence, and Sustained Release

et al. 2021

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Functional nanomaterials are one of the potential carriers for drug delivery, whereas there are many prerequisites for this purpose. The carrier should be monodispersed, be fluorescent, and have a proper nanostructure to keep/release drug molecules to achieve controlled release, although preparing a nanomaterial which fulfills all the demands is still very challenging. In this paper, we show the preparation of monodispersed nanoporous amorphous titania submicron particles with fluorescent property. They adsorb a model drug moleculeibuprofenwith their surface coverage up to 100%. Such a perfect loading does not decrease the fluorescent intensity because of any quenching effects but even maximize it. We also demonstrate the release behavior of IBU into simulated body fluid. Interestingly, the present carrier releases most of IBU in 6 h, whereas that modified with the polyethylene glycol moiety takes 48 h to finish releasing IBU, indicating its potential for controlled release applications.

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Microfluidic fabrication of fluorescent nanomaterials: A review

Lin

Yin

Starostin³

et al. 2021

Chemical Engineering Journal

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Preparation of Eu(iii) acetylacetonate-doped well-defined titania particles with efficient photoluminescence properties

Cited by 8 publications

References 30 publications

Synthesis and characterization of Eu3+ doped TiO2 thin films deposited by spray pyrolysis technique for photocatalytic application

Synthesis and characterization of Eu3+ doped TiO2 thin films deposited by spray pyrolysis technique for photocatalytic application

Preparation of Monodispersed Nanoporous Eu(III)/Titania Loaded with Ibuprofen: Optimum Loading, Luminescence, and Sustained Release

Microfluidic fabrication of fluorescent nanomaterials: A review

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