Mechanism of long-lasting phosphorescence of Eu 2+ in melilite

Kodama, Nobuhiro; Sasaki, N.; Yamaga, M.; Masui, Yuki

doi:10.1080/10420150215839

Cited by 16 publications

(9 citation statements)

References 6 publications

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“…We expected the layering to stabilize the chemically unstable metal chloride layer. As phosphors with layered structures often suffer from substantial thermal quenching of luminescence owing to loose interlayer bonding 23,24 , we explored materials that exhibited a small degree of thermal quenching.…”

Section: Resultsmentioning

confidence: 99%

A novel phosphor for glareless white light-emitting diodes

et al. 2012

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Section: Resultsmentioning

confidence: 99%

A novel phosphor for glareless white light-emitting diodes

et al. 2012

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“…Recently, several groups in China found that Ce 3+ -Tb 3+ -or Eu 3+ /Eu 2+ -doped Ca 2 Al 2 SiO 7 materials can emit green, red, and blue light with high brightness under near UV irradiation, showing great advantages in fabricating the white light-emitting diode (w-LED) [10][11][12][13]. The Ca 2 Al 2 SiO 7 :Ce 3+ single crystal has a long afterglow emission and can be used in tunable solid-state laser materials [14][15][16]. As we all know, different material preparation methods have some important effects on material microstructure and physical properties.…”

Section: Introductionmentioning

confidence: 99%

Luminescence properties of red-emitting Ca2Al2SiO7:Eu3+ nanoparticles prepared by sol-gel method

2011

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A series of red-emitting Ca 2−x Al 2 SiO 7 :xEu 3+ (x = 1 mol.%-10 mol.%) phosphors were synthesized by the sol-gel method. The effects of annealing temperature and doping concentration on the crystal structure and luminescence properties of Ca 2 Al 2 SiO 7 :Eu 3+ phosphors were investigated. X-ray diffraction (XRD) profiles showed that all peaks could be attributed to the tetragonal Ca 2 Al 2 SiO 7 phase when the sample was annealed at 1000°C. Scanning electron microscopy (SEM) micrographs indicate that the phosphors have an irregularly rounded morphology with particles of about 200 nm. Excitation spectra showed that the strong broad band at around 258 nm and weak sharp lines in 350-490 nm were attributed to the charge transfer band of Eu 3+ −O 2− and f-f transitions within the 4f 6 configuration of Eu 3+ ions, respectively. Emission spectra implied that the red luminescence could be attributed to the transitions from the 5 D 0 excited level to the 7 F J (J = 0, 1, 2, 3, 4) levels of Eu 3+ ions with the main electric dipole transition 5 D 0 → 7 F 2 (618 and 620 nm), and Eu 3+ ions prefer to occupy a lower symmetry site in the crystal lattice. Moreover, the photoluminescence (PL) intensity was strongly dependent on both the sintering temperature and doping concentration, and the highest PL intensity was observed at an Eu 3+ concentration x = 7 mol.% after annealing at 1100°C. The obtained Ca 2 Al 2 SiO 7 :Eu 3+ phosphor may have potential application for the red lamp phosphor.

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“…Therefore the silicate-based long afterglow phosphors are regarded as one of the promising materials in the field. Eu 2+ and Ce 3+ caused long-lasting behavior in melilites together with their afterglow mechanism, were reported in recent years by several groups [15][16][17][18][19], showing the potential research interest in rare-earth-doped melilite materials. However, when compared to the achievements researchers made in aluminate system, works in silicate system need further investigation.…”

Section: Introductionmentioning

confidence: 83%