Journal
JOURNAL OF LUMINESCENCE
Volume 192, Issue -, Pages 1288-1294Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.jlumin.2017.09.009
Keywords
Energy transfer; Forster-Dexter theory; Quadrupole-quadrupole interaction; Transfer efficiency
Categories
Funding
- UGC, India
- DST, India through project SAP-DRS [F.530/12/DRS/2009(SAP-1)]
- DST, India through project DST-PURSE [SR/S9/Z-23/2010/22]
- UGC
- UGC through scheme of faculty development programme [FIP/12th plan/KLMG023 TF04]
- MoU-DAE-BRNS Project [2009/34/36/BRNS/3174]
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A new series of emission-tunable alkali fluoroborate glasses with molar composition (70-x-y)B2O3 + 10BaO + 10K(2)O + 10ZnE(2) + xEu(2)O(3) + yTb(4)O(7) (y = 0.0, 1.0 mol% and x as 0.0, 0.1, 0.2, 0.5 and 1.0 mol%) were prepared using the conventional melt quenching technique. The photoluminescence characteristics of the prepared glasses were explored and the efficient energy transfer between Tb3+ ions and Eu3+ ions under 484 nm excitation was confirmed using excitation and emission spectra. The photoluminescence and lifetime measurements reveal the efficient energy transfer from Tb3+ to Eu3+ through quadrupole-quadrupole interaction between the rare earth ions. The important energy transfer parameters such as energy transfer probability and transfer efficiency were computed. The energy transfer efficiency was considerably increased with an increase in the concentration of Eu3+ ions. The CIE chromaticity analysis revealed that the as obtained glassy system exhibits a greenish-orange emission with a low concentration of Eu3+ ions and can be tuned to orange-red emission by increasing the concentration of Eu3+ ions. The obtained results suggest that the prepared glassy system has potential applications in various optoelectronic devices.
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