Li3Gd3−3xEu3xTe2O12 (x=0.05−1.0) phases with garnet structure were synthesized by high temperature solid state reaction and the photoluminescence properties were investigated. The appearance of bands due to intra 4 f transitions of Gd3+ in the excitation spectra recorded by monitoring the 612 nm emission line of the activator indicates Gd3+→Eu3+ energy transfer in this host lattice. Under 395 nm excitation, the electric dipole transition is predominant in the emission spectrum of Eu3+ and is in agreement with the C2 point group (noncentrosymmetric) of the EuO8 polyhedron. The critical concentration of the Eu3+ activator in this series was found to be 0.6 (x=0.2) above which, concentration quenching occurs. The emission intensity of the phosphor composition, Li3Gd2.4Eu0.6Te2O12 is ~4 times that of the commercial sample of Y2O3:Eu3+ phosphor. © 2016

Upadhyayula V Varadaraju

Department Of Chemistry

Hansnath Tiwari

Electric excitation

Emission spectroscopy

Energy transfer

GARNETS

High temperature applications

Light emission

Lighting

lithium

Phosphors

photoluminescence

Rare earths

Solid state reactions

Concentration quenching

Critical concentration

ELECTRIC DIPOLE TRANSITION

Excitation spectrum

HIGH TEMPERATURE SOLID-STATE REACTION

Non-centrosymmetric

Photoluminescence properties

SOLID-STATE LIGHTING APPLICATION

Europium

IIT Madras is a public technical and research university located in Chennai, Tamil Nadu. Founded in 1959, it is recognised as an Institute of National Importance.

IIT Madras has been ranked as the top engineering institute in India for four years in a row by the National Institutional Ranking Framework of the MHRD

It currently offers undergraduate, postgraduate and research degrees across 16 disciplines in Engineering, Sciences, Humanities and Management. About 596 faculty belonging to science and engineering departments and centres of the Institute are engaged in teaching, research and industrial consultancy.

IIT Madras

Journal of Solid State Chemistry

The comparative study of the structure and photoluminescence (PL) properties of the Eu 3 and Tb 3 activated Na 3Ln(BO 3) 2, with Ln=Y, Gd, showed the important role of the host lattice structure upon PL. Higher emission intensities of Eu 3 and Tb 3 are observed for Na 3Gd(BO 3) 2 than for Na 3Y(BO 3) 2, through direct Eu 3 excitation at 395 nm for Eu 3 doped borates, and through Gd 3 excitation around 280 nm for Tb 3 doped borates. This higher performance for Na 3Gd(BO 3) 2 is due to the less regular environment of Eu 3 (Tb 3) in the Gd sites than in the Y sites and to energy transfer from Gd 3 to Eu 3(Tb 3). The smaller critical concentration in Na 3Ln 1-xTb x(BO 3) 2 observed for Ln=Gd, x=0.5, compared to x=0.6 for Ln=Y, is explained by shorter Ln-Ln distances (4.11 Å for Gd-Gd vs. 4.59 Å for Y-Y). Both Na 3Y 0.4Tb 0.6(BO 3) 2 and Na 3Gd 0.5Tb 0.5(BO 3) 2 show intense green emission under UV excitation. © 2012 Elsevier Inc.

Influence of structural distortions upon photoluminescence properties of Eu 3 and Tb 3 activated Na 3Ln(BO 3) 2 (Ln=Y, Gd) borates

A new series of gallozincates LnBaZn3GaO7 (Ln=La, Nd, Sm, Eu, Gd, Dy, Y) and new aluminozincates LnBaZn3AlO7 (Ln=Y, Eu, Dy) have been synthesized. Their structure refinements show that these phases belong to the "114" series, with hexagonal P63mc space group previously described for SmBaZn3AlO7. The photoluminescence study of these oxides shows that the Eu3+ activated LnBaZn3MO7 oxides with Ln=Y, La, Gd; and M=Al, Ga exhibit strong magnetic and electric dipole transitions (multiband emission) which is of interest for white light production. These results also confirm that the site occupied by Eu3+ is not strictly centrosymmetric. The electric dipole transition intensity is the highest in GdBaZn3MO7 [M=Al, Ga]: 0.05Eu3+ as compared with other Eu3+ activated compositions. This is due to the layer distortion around GdO6 octahedra when compared with YO6 and LaO6 octahedra. © 2009 Elsevier Inc. All rights reserved.

Multiband orange-red photoluminescence of Eu3+ ions in new "114" LnBaZn3GaO7 and LnBaZn3AlO7 oxides

Scientific Reports

Controllable Fabrication and Optical Properties of Uniform Gadolinium Oxysulfate Hollow Spheres

Luminescence

UVB-emitting Gd3+-activated M2O2S (where M = La, Y) for phototherapy lamp phosphors

Optical Materials

Luminescence of Eu3+ and Pr3+ in the weberite, Ca2La3Sb3O14

Li3Gd3Te2O12:Eu3+- an intense red phosphor for solid state lighting applications

Journal	Journal of Solid State Chemistry
Publisher	Academic Press Inc.
ISSN	00224596
Open Access	No