Tunable white light emission from single‐phased Li₂SrSiO₄:Dy³⁺ phosphors by co‐doping with Eu³⁺

Abstract: A series of single-phase full-color emitting Li2 Sr1-x-y SiO4 :xDy(3+) ,yEu(3+) phosphors were synthesized by solid-state reaction and characterized by X-ray diffraction and photoluminescence analyses. The samples showed emission peaks at 488 nm (blue), 572 nm (yellow), 592 nm (orange) and 617 nm (red) under 393 nm excitation. The photoluminescence excitation spectra, comprising the Eu-O charge transfer band and 4f-4f transition bands of Dy(3+) and Eu(3+) , range from 200 to 500 nm. The Commission Internationa… Show more

“…In order to generate multicolor emissions and improve the behaviour of white light with excellent quality, it is anticipated that efficient white emission could be realized by full-color emitting single-phase coactivated phosphors. [7][8][9][10][11][12] Because of the Sm 3+ 4 G 5/2 / 6 H J/2 (J ¼ 5, 7, 9) characteristic emissions in the orange-red region, Sm 3+ ions are expected to possess superior red-color purity. 13,14 However, Sm 3+ ions have a weak absorption in the UV region on account of the low oscillator strength.…”

Luminescence, energy-transfer and tunable color properties of single-component Tb³⁺ and/or Sm³⁺ doped NaGd(WO₄)₂ phosphors with UV excitation for use as WLEDs

“…In order to generate multicolor emissions and improve the behaviour of white light with excellent quality, it is anticipated that efficient white emission could be realized by full-color emitting single-phase coactivated phosphors. [7][8][9][10][11][12] Because of the Sm 3+ 4 G 5/2 / 6 H J/2 (J ¼ 5, 7, 9) characteristic emissions in the orange-red region, Sm 3+ ions are expected to possess superior red-color purity. 13,14 However, Sm 3+ ions have a weak absorption in the UV region on account of the low oscillator strength.…”

Luminescence, energy-transfer and tunable color properties of single-component Tb³⁺ and/or Sm³⁺ doped NaGd(WO₄)₂ phosphors with UV excitation for use as WLEDs

Photoluminescence properties and charge compensation investigations of novel orange-emitting Eu3+ doped Na4Ca4(Si6O18) phosphors

Synthesis and luminescent properties of KLa1−x−y(MoO4)2−z(WO4)z:xEu3+, yDy3+ phosphors for WLEDs