Luminescence properties of novel emission-tunable NaSr(4−x−y)Bax(BO3)3:yEu2+ phosphors for white light emitting diodes
Abstract
A series of emission-tunable NaSr(4−x−y)Bax(BO3)3:yEu2+ phosphors have been prepared by a conventional solid-state reaction method. The structures of NaSr(4−x−y)Bax(BO3)3:yEu2+ have been investigated by Rietveld refinement of the X-ray diffraction (XRD) patterns. The results indicated that the as-prepared samples showed the same crystal structure of NaSr4(BO3)3 with a cubic unit cell and space group of Iad. With the increase of Ba2+ concentration, the Sr2+ sites were replaced by Ba2+ completely and the lattice parameter of the unit cell increased from a = b = c = 15.0710 Å to 15.7266 Å. Both emission spectra and decay curves of NaSr3.98(BO3)3:0.02Eu2+ and NaBa3.98(BO3)3:0.02Eu2+ showed the existence of two different Eu2+ emission centers named Eu1 and Eu2. Eu2 was six-coordinated and Eu1 was eight-coordinated of oxygen. With the increase of Eu2+ concentration in the NaSr3−yBa(BO3)3:yEu2+ sample, the emission intensity increased and reached a maximum at y = 0.02. Then the concentration quenching phenomenon emerged due to the electric dipole–dipole interaction. Upon the cation substitutions (Sr2+ for Ba2+) in the NaSr(4−x−y)Bax(BO3)3:yEu2+ host, the emission peaks of Eu2+ blue-shifted from 609 nm to 544 nm and the thermal stability decreased, which was ascribed to the change of the covalency and the crystal field strength that the 5d orbital of the Eu2+ ion experiences. The CIE chromaticity coordinates of the obtained phosphors can be continuously tuned from orange-red (0.4795, 0.4070) to yellow-green (0.3432, 0.4665) by adjusting the Ba2+ concentration. The results demonstrate that the emission-tunable NaSr(4−x−y)Bax(BO3)3:yEu2+ phosphors have a potential application for white light emitting diodes (w-LEDs).