期刊
OPTICAL MATERIALS
卷 78, 期 -, 页码 52-62出版社
ELSEVIER
DOI: 10.1016/j.optmat.2018.02.003
关键词
Oxides; Phosphors; Optical properties; Pr3+
资金
- UGC, Government of India [F.530/12/DRS/2009 (SAP-1)]
- DST, Government of India through DST-PURSE program [SR/S9/2-23/2010/22(C, G)]
- UGC-BSR
- UGC through the scheme of Faculty Development Programme [FIP/12th plan/KLMG023 TF04]
- MoU-DAE-BRNS Project, Department of Physics, S.V. University, Tirupati, India [2009/34/36/BRNS/3174]
- UGC
Pr3+ doped Ba2CaWO6 phosphor were prepared by traditional high-temperature solid-state reaction technique. The structure evolution was systematically investigated by X-ray diffraction (XRD), energy-dispersive X-ray spectroscopy (EDS), Fourier-transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM) and transmission electron microscopy (TEM) analysis. The X-ray powder diffraction patterns indicate that the prepared phosphors crystallized in the cubic double-perovskite structure. The functional groups were identified using FTIR spectra and the elements present in the composition were confirmed by the EDS profile. The morphology of the phosphor was identified using SEM and TEM analysis. The PL spectra illustrated that these phosphors could be efficiently excited by charge transfer band of host and the maximum luminescence intensity was observed at 0.06 wt% of Pr3+ ion. Upon the charge transfer band excitation, emission spectra showed peaks at 489, 532, 647, 685 and 737 nm corresponding to P-3(0) -> H-3(4), P-3(1) -> H-3(5), P-3(0) -> F-3(2), P-3(0) -> F-3(3) and P-3(0) -> F-3(4) transitions respectively. The concentration quenching of Ba2CaWO6:Pr3+ phosphor can be mainly attributed to dipole-dipole interaction. The CIE coordinates were estimated to be close to the white region. The decay curves are well fitted with double exponential decay models. The standard and modified Judd-Ofelt (JO) theories were used to determine the Judd-Ofelt intensity parameters, radiative transition probabilities and branching ratios. The optical properties indicate that Ba2CaWO6:Pr3+ phosphors can produce white light emission from a single phase host and its potential application for solid-state lighting and display devices. (C) 2018 Elsevier B.V. All rights reserved.
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