•연구자: 물리학과 위상원, 이윤상
•발표일: 2022.10
•DOI:https://doi.org/10.1016/j.jre.2022.10.008
•S.W.Wi and Y.S.Lee, Journal of Rare Earths(Q1), Volume 42, Issue 1, Pages 66-75 (2024)
•Abstract
We investigated the emission properties of Eu3+-doped GdNbO4-based oxide phosphors, aiming at improving the Eu3+ emission by codoping of Bi3+ and Li+. Eu3+ singly doped, Eu3+ and Bi3+ doubly doped, and Eu3+, Bi3+, and Li + triply doped GdNbO4 were prepared using a high-temperature solid–state reaction method. The red-orange emissions from Eu3+ in the singly doped samples were significantly improved by the codoping of Bi3+, mainly due to the energy transfer from Bi3+ to Eu3+. The additional codoping of Li+ is found to increase the Eu3+ emission significantly. This improvement might be attributed to the increase in the photoluminescent quantum yield originating from larger grain sizes and better crystallinity. A detailed analysis of the X-ray diffraction pattern and the asymmetric ratio estimated from the Photoluminescence spectra show that the local lattice environment around Eu3+ in GdNbO4 does not change significantly with the codoping of Bi3+ and Li+. Our results indicate that Li+ doping is a promising way to improve the emission properties of rare-earth ion-doped GdNbO4 phosphors.