Exploitation of Eu 3+ red luminescence through order-disorder structural transitions in lanthanide stannate pyrochlores for warm white LED applications

Eu ions epitomize excellent structural probes for the detection of disorder induced by structural variations in stannate pyrochlores due to their relatively simple energy level structure. In this context, we have synthesized a series of Eu doped Ln YSnNbO :0.15Eu (Ln = La, Gd, Y, and Lu) red phospho...

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Published in:Physical chemistry chemical physics : PCCP 2018-10, Vol.20 (37), p.24287-24299
Main Authors: Sreena, T S, Prabhakar Rao, P, Raj, Athira K V, Aju Thara, T R
Format: Article
Language:English
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Summary:Eu ions epitomize excellent structural probes for the detection of disorder induced by structural variations in stannate pyrochlores due to their relatively simple energy level structure. In this context, we have synthesized a series of Eu doped Ln YSnNbO :0.15Eu (Ln = La, Gd, Y, and Lu) red phosphors via a high temperature solid state reaction method to explore the influence of phase evolution on the luminescence properties. The substitution of Ln ions in the A sites of the pyrochlore induces a structural transition from an ordered pyrochlore to a disordered fluorite structure with decreasing ionic radius. The diminishing trend of the characteristic superstructure peaks in the XRD pattern and the broadening of Raman modes with lanthanide substitution clearly substantiate the disorder induced in the cationic sublattice. These phosphors exhibit strong absorption in the near UV region and emit red luminescence under 392 nm excitation, which also correlates to their crystal structures. Their luminescence properties were enhanced with the increased ordering of cations from Lu to La. The more ordered structure of the La system favors a more uniform distribution of Eu ions, preventing cluster formation, and thus improving the luminescence properties. The splitting of the D - F transition of the Eu ions further provides a clue for the structural transition in support of the XRD and Raman analysis. The long range ordering, ligand polarizability, and covalent nature of the Eu bonding influence the emission probability and improve the quantum efficiency of the La host. Eu emissions resulting from D - F transitions are significantly improved with increases in the concentration of Eu ions in the La host. The distortion of the A site symmetry and the red shift of the charge transfer band with Eu doping in the La YSnNbO system leads to an enhanced electric dipole transition. The extent of the distortion in the EuO polyhedra is reflected in the quantum efficiency values and J-O intensity parameters, Ω and Ω , which are a measure of the degree of polarizability of the Eu-O bonds in the lattice. Our results suggest that we can manipulate the Eu red luminescence in lanthanide stannate pyrochlores through order-disorder structural transitions.
ISSN:1463-9076
1463-9084
DOI:10.1039/C8CP03863E