Luminescence Properties of Al₄B₂O₉:M (M = Dy³⁺, Sm³⁺, and Tb³⁺)

The objective of this study was to investigate the photoluminescence properties of Al₄B₂O₉:M (M = =Dy³⁺ , Sm³⁺ , and Tb³⁺ ). The solution combustion method was employed to prepare Al₄B₂O₉ doped with M ions. The synthesized aluminum borates were subjected to phase analysis using X-ray diffraction, while their photoluminescence properties were evaluated using a spectrofluorometer. Under excitation at 352 nm, Al₄B₂O₉:Dy³⁺ exhibited emission peaks at 484, 578, and 701 nm. Similarly, when excited at 402 nm, Al₄B₂O₉:Sm³⁺ emitted light at 563, 599, 645, and 702 nm. Finally, upon excitation at 238 nm, Al4B2O9:Tb3+ emitted light at 489, 544, 588, and 622 nm.

1. J. Garćıa Solé, L. E. Bausá, D. Jaque, An Introduction to the Optical Spectroscopy of Inorganic Solids, Wiley, 199 (2005).

2. H. Scholze, Z. Anorg. Allgem. Chem., 284, 272–277 (1956).

3. Y. Zheng, D. Chen, Luminescence, 26, 481–485 (2011).

4. X. Zhang, Z. Liu, Y. Zhou, J. Yu, Ceramics-Silikáty, 62, 81–85 (2018).

5. Y. Fan, et al., J. Nanopart. Res., 15, 1699 (2013).

6. A. N. Yerpude, S. K. Ramteke, G. N. Nikhare, V. R. Panse, N. S. Kokode, S. J. Dhoble, Mater. Today: Proc., 29, 857–860 (2020).

7. Y. Dong, et al., Ceram. Inter., 47, 21029–21037 (2021).

8. I. M. Nagpure, K. N. Shinde, S. J. Dhoble, A. Kumar, J. Alloys Compd., 481, 632–638 (2009).

9. H. Choi, Ch. H. Kim, Ch. H. Pyun, S. J. Kim, J. Lumin., 82, 25–32 (1999).

10. P. Dorenbos, J. Lumin., 91, 91–106 (2000).

11. P. Dorenbos, J. Lumin., 91, 155–176 (2000).

12. Y. Liu, Z. Yang, Q. Yu, X. Li, Y. Yang, P. Li, Mater. Lett., 65, 1956–1958 (2011).

13. İ. Pekgözlü, J. Appl. Spectrosc., 89, 799–802 (2022).

14. İ. Pekgözlü, S. Çakar, J. Lumin., 132, 2312–2317 (2012).

15. İ. Pekgözlü, Optik, 127, 4114–4117 (2016).

16. G. E. Malashkevich, I. M. Mel’nichenko, Phys. Solid State, 40, 420–426 (1998).

17. Y. Zhang, C. Lu, L. Sun, Z. Xu, Y. Ni, Mater. Res. Bull., 44, 179–183 (2009).

18. C. M. Reddy, G. R. Dillip, K. Mallikarjuna, S. Z. A. Ahamed, B. S. Reddy, B. P. Raju, J. Lumin., 131, 1368–1375 (2011).

19. K. Annapurna, R. N. Dwivedi, P. Kundu, S. Buddhudu, Mater. Res. Bull., 38, 429–436 (2003).

20. E. Cavalli, A. Belletti, R. Mahiou, P. Boutinaud, J. Lumin., 130, 733–736 (2010).

21. İ. Pekgözlü, H. Karabulut, A. Mergen, A. S. Başak, J. Appl. Spectrosc., 83, 504–511 (2016).

22. E. Erdoğmuş, İ. Pekgözlü, C. Özpınar, E. Korkmaz, J. Appl. Spectrosc., 81, 313–316 (2014).

23. T. Kano, S. Shionoya, W. M. Yen, Phosphor Handbook, CRC Press, Boca Raton, 185 (1998).

24. P. Li, Z. Wang, Z. Yang, Q. Guo, X. Li, J. Lumin., 130, 222–225 (2010).

25. R. Wang, J. Xu, C. Chen, Mater. Lett., 68, 307–309 (2012)