Please use this identifier to cite or link to this item: http://localhost:8080/xmlui/handle/123456789/4079
Title: Elucidating the Structure and Optimising the Photoluminescence Properties of Sr2al3o6f: Eu3+ Oxyfluorides for Cool White-leds
Authors: Ranjith, P
Sreevalsa, S
Tyagi, Jyoti
Jayanthi, K
Jagannath, G
Patra, Pritha
Ahmad, Shahzad
Annapurna, K
Allu, A R
Das, Subrata
Keywords: hexagonal Sr2Al3O6F
rietveld refinement
density functional theory
Eu3+-doping
red phosphors
white-LEDs
Issue Date: 22-Jan-2020
Publisher: Elsevier
Citation: Journal of Alloys and Compounds; 826:154015
Abstract: Herein, Sr2Al3O6F in hexagonal symmetry was synthesized via a solid-state methodology. The X-ray diffraction pattern of Sr2Al3O6F was refined by the Rietveld refinement with lattice parameters a = 17.8232(1) Å and c = 7.2168(0) Å. The stability of the crystal structure is further confirmed from the results of bond valence sums and the global instability index. The theoretical calculations of the electronic and optical behaviors of the Sr2Al3O6F were analyzed by density functional theory and the obtained results of the lattice parameters and direct bandgap were found close to the experimental data. The chemical states and elemental composition of Sr2Al3O6F were also authenticated by X-ray photoelectron spectroscopy (XPS). To evaluate the suitability of the Sr2Al3O6F structure as high efficient red phosphor, a series of Eu3+ doped Sr2-xEuxAl3O6F (x = 0.0 to 0.10) were synthesized, which showed intense red-orange emission (5D0→7F1,2) at UV and blue excitations. The photoluminescence intensity corresponding to 5D0→7F2 transition decreased significantly for x = 0.10 due to the luminescence quenching. Nevertheless, further enhancement in photoluminescence of Sr1.9Al3O6F: Eu0.1 sample was realized with the substitution of 0.1 mol Ba2+ ion for 0.1 mol Sr2+ ion. The various radiative properties of the emission bands were also analyzed through the Judd-Ofelt theory. The optimized Sr1.8Al3O6F: Ba0.1/Eu0.1 phosphor showed high red color purity (>95%), and moderate thermal stability of around 72% at 150 °C, suggesting that it could be an ideal red component for white-LEDs. A white-LED comprising the commercial yellow phosphor and the optimized sample showed bright white light having the CRI of 80.5%, CCT of 5510 K, and CIE of (0.33, 0.36) indicating that Sr1.8Al3O6F: Ba0.1/Eu0.1 phosphor is an appropriate red component for cool white-LEDs.
URI: https://reader.elsevier.com/reader/sd/pii/S0925838820303789?token=D8CFBC083314E4B04CFAE571CB3C0C937B1DCAAFD54CEA6FCD50BFCD96700565B789091F32AE6C887F974FD8B4BBBD74
http://ir.niist.res.in:8080/jspui/handle/123456789/4079
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