Ion beam induced luminescence studies of sol gel derived Y2O3:Dy3+ nanophosphors

Shivaramu, N.J.; Nagabhushana, K.R.; Lakshminarasappa, B.N.; Singh, Fouran

doi:10.1016/j.jlumin.2015.07.054

Cited by 19 publications

(9 citation statements)

References 44 publications

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“…Under 276 nm excitation of Gd 3+ for the 574 nm emission of Dy 3+ , however, the lifetime of x = 0.4 specimen climbs slightly to ~0.72 ms; this is primarily due to the energy transfer from Gd 3+ to Dy 3+ . The fluorescence lifetimes of the ceramic scintillators determined in this work are also in agreement with previously reported values of 0.41‐0.96 ms for Y 2 O 3 :Dy phosphor powders; which are much shorter than those for Y 2 O 3 :Eu and (Y,Gd) 2 O 3 :Eu ceramics (1.22‐2.66 ms) …”

Section: Resultssupporting

confidence: 92%

“…Y 2 O 3 is well‐known as an excellent host material which accommodates several activation ions and is extensively applied in the fields of mercury‐free lamps, plasma display panels (PDP), field emission displays (FED), electroluminescent displays, and white LEDs . Among these activators, trivalent Dy 3+ ‐doped Y 2 O 3 phosphor powders show a hypersensitive emission in the yellow band at 574 nm (which corresponds to the 4 F 9/2 → 6 H 13/2 transition) as well as blue and red ones at 488 (the 4 F 9/2 → 6 H 15/2 transition) and 671 nm (the 4 F 9/2 → 6 H 11/2 transition), respectively .…”

Section: Introductionmentioning

confidence: 99%

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Photoluminescent and scintillant properties of highly transparent [(Y_1‐_xGd_x)_0.99Dy_0.01]₂O₃ (x = 0 and 0.4) ceramics

et al. 2019

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High‐optical‐quality ternary [(Y1‐xGdx)0.99Dy0.01]2O3 (x = 0 and 0.4) ceramics were successfully fabricated by vacuum sintering with in‐line transmittances of 71.4%‐75.1% at 574 nm, the wavelength of Dy3+ emission (the 4F9/2 → 6H13/2 transition). Substitution of Gd3+ for Y3+ significantly affected the photoluminescent and scintillant properties of the ceramics. Gd3+ addition effectively increased lattice parameters and theoretical densities of the ceramic samples; this contributed to enhanced X‐ray absorption coefficients. Both [(Y1‐xGdx)0.99Dy0.01]2O3 (x = 0 and 0.4) ceramics displayed typical Dy3+ emissions from 4F9/2 → 6HJ (J = 15/2, 13/2, 11/2) transitions under UV and X‐ray irradiations. By incorporating Gd3+ into the lattice, a stronger excitation peak of Gd3+ due to internal f‐f transitions relative to Dy3+ was observed at 276 nm; subsequent ceramics obtained a sharper PL intensity and a warmer hue via effective energy transfer from Gd3+ to Dy3+. Using a Gd3+ dopant generally reduces the total photoluminescence/photoluminescence excitation intensities and light output; it also delays the lifetime and afterglow of the transparent ceramics.

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Section: Resultssupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Photoluminescent and scintillant properties of highly transparent [(Y_1‐_xGd_x)_0.99Dy_0.01]₂O₃ (x = 0 and 0.4) ceramics

et al. 2019

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“…This indicates that the color of the ZrO 2 :Sm 3+ phosphor changed slightly with fluence and that the color of the sample shifts toward green from yellow color. Without change of the chemical composition of the sample, the emission color is altered with fluence because of the change of symmetry and lattice distortion . The IL results of ZrO 2 :Sm 3+ , therefore, confirm that there are no impurities in the sample except for the Sm 3+ ions and that no energy transfer took place to the host under 100 MeV Si 7+ ion excitation.…”

Section: Resultsmentioning

confidence: 75%

“…IL measurement was carried out at room temperature under the excitation of 100 MeV swift Si 7+ ions. This IL setup was installed at the Material Science Beamline of 15 UD Tandem Accelerator, Inter University Accelerator Centre (IUAC), New Delhi, India . A pressure of 10 –6 torr was maintained inside the chamber during ion bombardment.…”

Section: Methodsmentioning

confidence: 99%

“…This IL setup was installed at the Material Science Beamline of 15 UD Tandem Accelerator, Inter University Accelerator Centre (IUAC), New Delhi, India. 48 A pressure of 10 −6 torr was maintained inside the chamber during ion bombardment. A focused ion beam with a diameter of ∼2 mm was used for excitation and the emission of light from the material was collected at an angle of 45°with respect to the incident ion beam using an Ocean Optics spectrometer (model HR4000).…”

Section: ■ Introductionmentioning

confidence: 99%

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Unraveling the Charge State of Oxygen Vacancies in Monoclinic ZrO₂ and Spectroscopic Properties of ZrO₂:Sm³⁺ Phosphor

et al. 2021

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Ion beam analysis methods are very sensitive to analyze the defects and impurities in insulators and semiconductors. The present study focuses on an investigation of the nature of defects in monoclinic ZrO 2 and spectroscopic properties of ZrO 2 :Sm 3+ (1 mol %) phosphor using ionoluminescence (IL) under the excitation of 100 MeV Si 7+ ions. The structures of the combustion-synthesized ZrO 2 and ZrO 2 :Sm 3+ samples were revealed to be monoclinic as analyzed through X-ray diffraction, Raman spectroscopy, and selected area electron diffraction methods. Structural parameters were assessed utilizing Rietveld refinement of the obtained XRD data using GSAS II software. The average particle size of ZrO 2 and ZrO 2 :Sm 3+ samples was found to be 77 ± 2 and 72 ± 3 nm, respectively, as determined from transmission electron microscopy images. The electronic structure and the oxygen vacancy defect population were analyzed using experimental measurements [viz ionoluminescence (IL), photoluminescence (PL), PL lifetime decay, electron paramagnetic resonance (EPR), and diffuse reflectance spectroscopy (DRS)]. The prominent IL and PL emission peaks seen at 499 nm in monoclinic ZrO 2 are attributed to the F + type center that was assigned to the F 2 + centeran aggregate of the singly ionized oxygen vacancies. ZrO 2 :Sm 3+ (1 mol %) samples display Sm 3+ characteristic IL emission peaks between 562−582, 600−620, 635−673, and 719 nm, corresponding to ( 4 G 5/2 → 6 H 5/2 ), ( 4 G 5/2 → 6 H 7/2 ), ( 4 G 5/2 → 6 H 9/2 ), and ( 4 G 5/2 → 6 H 11/2 ) transitions under 100 MeV Si 7+ ion excitation for various fluences. The 100 MeV Si 7+ ion-induced ion track radius (damaged cross section) and local temperature were estimated through the thermal spike model to be 0.53 nm and 700 K (the duration is about 10 −13 second), respectively. CIE coordinates fall near the yellow color region and then slightly shift toward the green color region with an increase of fluence because of the lattice distortion and change of the Sm 3+ symmetry site.

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Novel yellow color-emitting BaY2O4:Dy3+ phosphors: persistent luminescence from blue to red

Dai

Jin

et al. 2020

Appl. Phys. A

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Ion beam induced luminescence studies of sol gel derived Y2O3:Dy3+ nanophosphors

Cited by 19 publications

References 44 publications

Photoluminescent and scintillant properties of highly transparent [(Y_1‐_xGd_x)_0.99Dy_0.01]₂O₃ (x = 0 and 0.4) ceramics

Photoluminescent and scintillant properties of highly transparent [(Y_1‐_xGd_x)_0.99Dy_0.01]₂O₃ (x = 0 and 0.4) ceramics

Unraveling the Charge State of Oxygen Vacancies in Monoclinic ZrO₂ and Spectroscopic Properties of ZrO₂:Sm³⁺ Phosphor

Novel yellow color-emitting BaY2O4:Dy3+ phosphors: persistent luminescence from blue to red

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Ion beam induced luminescence studies of sol gel derived Y2O3:Dy3+ nanophosphors

Cited by 19 publications

References 44 publications

Photoluminescent and scintillant properties of highly transparent [(Y1‐xGdx)0.99Dy0.01]2O3 (x = 0 and 0.4) ceramics

Photoluminescent and scintillant properties of highly transparent [(Y1‐xGdx)0.99Dy0.01]2O3 (x = 0 and 0.4) ceramics

Unraveling the Charge State of Oxygen Vacancies in Monoclinic ZrO2 and Spectroscopic Properties of ZrO2:Sm3+ Phosphor

Novel yellow color-emitting BaY2O4:Dy3+ phosphors: persistent luminescence from blue to red

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Photoluminescent and scintillant properties of highly transparent [(Y_1‐_xGd_x)_0.99Dy_0.01]₂O₃ (x = 0 and 0.4) ceramics

Photoluminescent and scintillant properties of highly transparent [(Y_1‐_xGd_x)_0.99Dy_0.01]₂O₃ (x = 0 and 0.4) ceramics

Unraveling the Charge State of Oxygen Vacancies in Monoclinic ZrO₂ and Spectroscopic Properties of ZrO₂:Sm³⁺ Phosphor