A novel red phosphor Ca2YNbO6:Eu3+ for WLEDs

Shi, Youzhen; Cui, Ruirui; Gong, Xinyong; Deng, Chaoyong

doi:10.1002/bio.4304

Cited by 27 publications

(5 citation statements)

References 37 publications

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“…For Ca 2 YNbO 6 :0.4Eu 3+ (Figure 1a), the ionic radius of Eu 3+ is 0.947 Å for six coordination, and it tends to replace the position of the Y 3+ ion after entering the matrix lattice, mainly due to having the same valence as Y 3+ and a similar ionic radius to Y 3+ (CN = 6, r = 0.900 Å). The replacement of Eu 3+ by Y 3+ was also confirmed by Shi et al in Ca 2 YNbO 6 [7]. For SrAl 2 O 4 :0.01Eu 2+ , 0.02Dy 3+ (Figure 1b), the ionic radii of Sr 2+ , Al 3+ , Eu 2+ and Dy 3+ are 1.180 Å, 0.535 Å, 1.170 Å and 0.912 Å for six coordination, respectively.…”

Section: Structural Characterizationsupporting

confidence: 77%

Excitation-Wavelength- and Time-Dependent Fluorescent Ink Based on RGB Building Blocks for Advanced Anti-Counterfeiting

Lin,

Kang,

et al. 2024

Coatings

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What is reported here is an advanced anti-counterfeiting ink whose luminous effect changes over time and at different excitation wavelengths. Unlike traditional anti-counterfeit fluorescent materials, the phosphors used here exhibit multicolor emissions under multiple excitation modes. In this work, the most important building blocks are three classic phosphors with primary colors, red (Ca2YNbO6:0.4Eu3+), green (SrAl2O4:0.01Eu2+, 0.02Dy3+) and blue (CaAl2O4:0.012Eu2+, 0.06Nd3+, 0.036Gd3+), which were synthesized using the high-temperature solid-state method. The phosphors formed homogeneous solid solutions and were uniformly distributed throughout the mixture. A homogeneous transparent luminescent ink was obtained by blending the multi-mode phosphors with transparent screen-printing ink, resulting in multi-mode luminescence by simply varying the proportions of the red (R), green (G) and blue (B) phosphors. Thanks to this simple process, an advanced anti-counterfeiting ink with low production costs was achieved. Anti-counterfeiting logos of a “Giraffe” and “Steam Train” were printed using the transparent fluorescent ink onto black cardstock, exhibiting the characteristic of dynamic luminescence dependent on the duration and excitation wavelength. The anti-counterfeiting effect of the patterns suggests that the fluorescent ink is worth developing and is reliable in its application.

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Section: Structural Characterizationsupporting

confidence: 77%

Excitation-Wavelength- and Time-Dependent Fluorescent Ink Based on RGB Building Blocks for Advanced Anti-Counterfeiting

Lin,

Kang,

et al. 2024

Coatings

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“…Here, we attempt to assess the CIE coordinates and C.P . values of various Eu 3± doped phosphors ,[ 15 , 55 , 56 , 57 , 58 , 59 , 60 , 61 , 62 , 63 , 64 , 65 , 66 , 67 , 68 ] as a function of the asymmetry ratio, as shown in Table S2 (Supporting Information) and Figure 4 , including Ca 3 WO 6 :(Eu 3+ , K + ), which will provide more insight into the correlation of the C.P . value with the asymmetry ratio.…”

Section: Resultsmentioning

confidence: 99%

“…Red-color purity of Eu 3+ luminescence as a function of asymmetry ratio. The data for Ca 3-2x Eu x K x WO 6 are plotted as red diamonds (♦).YAG(Y 2.97 Al 5 O 12 :0.03Eu 3+ ),[50] (YBO)Y 0.8 BO 3 :0.2Eu 3+ ,[51] YAO(Y 0.95 AlO 3 :0.05Eu 3+ ),[52] YVO(Y 0.95 VO 4 :0.05Eu 3+ ),[53] YO(Y 1.998 O 3 :0.002 Eu 3+ ),[54] YOS(Y 1.88 O 2 S:0.12Eu 3+ ),[55] BTO(Ba 0.94 TiO 3 :0.06Eu 3+ ),[56] BZO(BaZr 0.97 O 3 :0.03Eu 3+ ),[57] SZO(Sr 0.97 ZrO 3 :0.03Eu 3+ ),[57] CYNO (Ca 2 Y 0.6 NbO 6 :0.4Eu 3+ ),[58] SWO(Sr 2.4 WO 6 :0.3(K + ,Eu 3+ )),[15] LBGMO (Li 3 Ba 2 Gd 0.6 Eu 2.4 (MoO 4 ) 8 ),[59] BBBO(Ba 3 (Bi 0.5 Eu 0.5 ) 2 (BO 3 ) 4 ),[60] YSO(Y 1.95 SiO 5 :0.05Eu 3+ ),[61] CGAO(CaGd 0.93 AlO 4 :0.07Eu 3+ ),[62] and CLPO(Ca 9.9 Li(PO 4 ) 7 :0.1Eu 3+ ) [63]. The corresponding CIE coordinates are given in TableS2(Supporting Information).…”

mentioning

confidence: 99%

Eu³⁺ Site Distribution and Local Distortion of Photoluminescent Ca₃WO₆:(Eu³⁺, K⁺) Double Perovskites as High‐Color‐Purity Red Phosphors

Otsuka,

Oka,

Hayakawa

2023

Advanced Science

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In this study, Eu3+ and K+ co‐doped Ca3WO6 double perovskite, a high‐color‐purity red phosphor, is quantitatively investigated using synchrotron X‐ray diffraction Rietveld refinement, energy dispersive X‐ray spectroscopy, and high‐resolution PL spectroscopy. The Eu3+ fluorescence line‐narrowing (FLN) results, used to estimate the Eu3+ occupation at given sites (so‐called A and B sites) in the host crystal (A2BMO6; A, B = Ca; M = W), reveal that the Eu3+ ions have a twin distribution in both the A and B sites with high asymmetry ratios of ΛA = 9.7 and ΛB = 10.7, respectively. More interestingly, at lower Eu3+ doping levels, the ions are predominantly located at the B sites (≈75%), indicating that the high color purity of Ca3WO6:(Eu3+, K+) is mainly caused by the high asymmetry ratios of the Eu3+ sites. Rietveld refinement combined with the FLN technique provides more reliable results for increasing the Eu3+ substitution at the A site with Eu3+ and K+ doping concentrations, which lower the lattice energy of Ca3WO6:(Eu3+, K+). The structural distortions owing to K+ co‐doping in terms of the quadratic elongation and bond‐angle variance exhibit good correlations with the Ca(Eu)O12 A‐site cuboctahedra and Ca(Eu)O6 B‐site octahedra, partially accounting for the higher Λ values.

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“…A series of BLT: x Mn 4+ phosphors ( x = 0.001, 0.002, 0.003, 0.004, 0.005, 0.006, and 0.007) was prepared via a high‐temperature solid‐state reaction. The BaCO 3 , La 2 O 3 , and Ta 2 O 5 used were the same as those published previously by our group [20]. The MnCO 3 used was also purchased directly from Shanghai Sinopharm Group with AR purity.…”

Section: Methodsmentioning

confidence: 99%

Phosphors Ba₂LaTaO₆:Mn⁴⁺ and its alkali metal charge compensation for plant growth illumination

Li,

Ye,

Cui

et al. 2023

Luminescence

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A series of Mn4+‐doped and Mn4+,K+‐co‐doped Ba2LaTaO6 (BLT) double‐perovskite phosphors was synthesized using a high‐temperature solid‐state reaction. The phase purity and luminescence properties were also studied. The optimum doping concentration of Mn4+ and K+ was obtained by investigating the photoluminescence excitation spectra and photoluminescence emission spectra. The comparison of BLT:Mn4+ phosphors with and without K+ ions shows that the photoluminescence intensity of K+‐doped phosphors was greatly enhanced. This is because there was a charge difference when Mn4+ ions were doped with Ta5+ ions in BLT. Mn4+–K+ ion pairs were formed after doping K+ ions, which hinders the nonradiative energy transfer between Mn4+ ions. Therefore, the luminescence intensity, quantum yield, and thermal stability of phosphors were enhanced. The electroluminescence spectra of BLT:Mn4+ and BLT:Mn4+,K+ were measured. The spectra showed that the light emitted from the phosphors corresponded well with chlorophyll a and phytochrome PR. The results show that the BLT:Mn4+,K+ phosphors had good luminescence properties and application prospects and are ideal materials for plant‐illuminated red phosphors.

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A novel red phosphor Ca₂YNbO₆:Eu³⁺ for WLEDs

Cited by 27 publications

References 37 publications

Excitation-Wavelength- and Time-Dependent Fluorescent Ink Based on RGB Building Blocks for Advanced Anti-Counterfeiting

Excitation-Wavelength- and Time-Dependent Fluorescent Ink Based on RGB Building Blocks for Advanced Anti-Counterfeiting

Eu³⁺ Site Distribution and Local Distortion of Photoluminescent Ca₃WO₆:(Eu³⁺, K⁺) Double Perovskites as High‐Color‐Purity Red Phosphors

Phosphors Ba₂LaTaO₆:Mn⁴⁺ and its alkali metal charge compensation for plant growth illumination

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A novel red phosphor Ca2YNbO6:Eu3+ for WLEDs

Cited by 27 publications

References 37 publications

Excitation-Wavelength- and Time-Dependent Fluorescent Ink Based on RGB Building Blocks for Advanced Anti-Counterfeiting

Excitation-Wavelength- and Time-Dependent Fluorescent Ink Based on RGB Building Blocks for Advanced Anti-Counterfeiting

Eu3+ Site Distribution and Local Distortion of Photoluminescent Ca3WO6:(Eu3+, K+) Double Perovskites as High‐Color‐Purity Red Phosphors

Phosphors Ba2LaTaO6:Mn4+ and its alkali metal charge compensation for plant growth illumination

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A novel red phosphor Ca₂YNbO₆:Eu³⁺ for WLEDs

Eu³⁺ Site Distribution and Local Distortion of Photoluminescent Ca₃WO₆:(Eu³⁺, K⁺) Double Perovskites as High‐Color‐Purity Red Phosphors

Phosphors Ba₂LaTaO₆:Mn⁴⁺ and its alkali metal charge compensation for plant growth illumination