PHOTOLUMINESCENCE CHARACTERIZATION OF Sm3+ DOPED SrIn2O4 PREPARED BY A SOLUTION COMBUSTION METHOD
Abstract
Sm3+ doped SrIn2O4 phosphors were prepared by a solution combustion method. The synthesized phosphors were characterized using powder XRD. The excitation and emission spectra of Sm3+ doped SrIn2O4 materials were analyzed at room temperature. SrIn2O4:Sm3+ phosphor emits 568-578, 606-617, 660, and 720 nm light under ultraviolet excitation of 300 nm. The photoluminescence properties of the synthesized phosphors with different Sm3+ doping concentrations were investigated. The optimum concentration of Sm3+ ion in SrIn2O4 was found to be 0.02 mol.
About the Author
İ. Pekgözlü
Bartin University
Turkey
Turkey
Faculty of Engineering, Department of Environmental Engineering
Bartin 74100
References
1. Y. Zhang, C. Lu, L. Sun, Z. Xu, Y. Ni, Mater. Res. Bull., 44, 179–183 (2009).
2. Z. H. Ju, R. P. Wei, J. X. Ma, C. R. Pang, W. S. Liu, J. Alloys Compd., 507, 133–136 (2010).
3. J. Mu, L. Liu, S. Kang, Nanoscale Res. Lett., 2, 100–103 (2007).
4. E. Erdoğmuş, İ. Pekgözlü, E. Korkmaz, Spectroscopy, 29, No. 3, 58–64 (2014).
5. Y. Zhou, J. Lin, S. Wang, J. Solid State Chem., 171, 391–395 (2003).
6. E. Erdoğmuş, İ. Pekgözlü, J. Appl. Specrosc., 81, 373–377 (2014).
7. S. Tang, M. Huang, J. Wang, F. Yu, G. Shang, J. Wu, J. Alloys Compd., 513, 474–480 (2012).
8. A. T. de Figueiredoa, V. M. Longo, S. de Lazoro, V. R. Mastelaro, F. S de Vicente, A. C. Hernandes, M. S. Li, J. A. Varela, E. Longo, J. Lumin., 126, 403–407 (2007).
9. H. Liang, Y. Tao, Q. Su, S. Wang, J. Solid State Chem., 167, 435–440 (2002).
10. A. Baszczuk, M. Jasiorski, M. Nyk, J. Hanuza, M. Maczka, W. Strek, J. Alloys Compd., 394, 88–92 (2005).
11. Y. Kang, B. Thuy, Y. Shimokawa, T. Hayakawa, S. Sakaida, L. Miao, S. Tanemura, S. Honda, Y. Ivamoto, J. Lumin., 169, 78–85 (2016).
12. X. Liu, C. Lin, Y. Luo, J. Lin, J. Electrochem. Soc., 154, J21–J27 (2007).
13. F. S. Kao, T. M. Chen, J. Solid State Chem., 156, 84–87 (2001).
14. F. S. Kao, Mater. Chem. Phys., 76, 295–298 (2002).
15. T. Shaohua, W. Ye, L. Kaixian, J. Chin. Ceram. Soc., 41, No. 6, 772-775 (2013).
16. İ. Pekgözlü, S. Çakar, J. Bartin Univ. Eng. Tech. Sci., 3, N 2, 61–66 (2015).
17. D. S. Jung, S. K. Hong, H. J. Lee, Y. C. Kang, Opt. Mater., 28, 530–535 (2006).
18. F. Ren, D. Chen, Opt. Laser Tech., 42, 110–114 (2010).
19. V. R. V. Schenck, Hk. Müller-Buschbaum, Z. Anorg. Allg. Chem., 398, 24–30 (1973).
20. J. Sato, H. Kobayashi, Y. Inoue, J. Phys. Chem. B, 107, 7970–7975 (2003).
21. C. M. Reddy, G. R. Dillip, K. Mallikarjuna, S. Z. A. Ahamed, B. S. Reddy, B. P. Raju, J. Lumin., 131, 1368–1375 (2011).
22. E. Cavalli, A. Belletti, R. Mahiou, P. Boutinaud, J. Lumin., 130, 733–736 (2010).
23. İ. Pekgözlü, S. Çakar, J. Lumin., 132, No. 9, 2312–2317 (2012).
24. İ. Pekgözlü, Optik, 127, 4114–4117 (2016).
25. İ. Pekgözlü, H. Karabulut, A. Mergen, A. S. Basak, J. Appl. Specrosc., 83, 504–511 (2016).
26. E. Erdoğmuş, İ. Pekgözlü, Optik, 127, No. 18, 7099–7103 (2016).
27. İ. Pekgözlü, J. Appl. Specr., 85, No. 6, 1136–1139 (2018).
Review
For citations:
Pekgözlü İ. PHOTOLUMINESCENCE CHARACTERIZATION OF Sm3+ DOPED SrIn2O4 PREPARED BY A SOLUTION COMBUSTION METHOD. Zhurnal Prikladnoii Spektroskopii. 2019;86(6):885-888.
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