STRUCTURAL STUDY AND THE EFFECT OF IONIC SIZE OF THE SYSTEMS (Gd1-x LuX) 3Al5 O12 DOPED ERBIUM.
DOI:
https://doi.org/10.4314/jfas.v11i2.20Keywords:
Cubic Garnets, ionic radius, Perovskite, DRX, FTIR, Photoluminescence spectroscopy.Abstract
The structure of cubic Garnets multi-components based on Gadolinium (GAG) undoped or doped rare earth, stabilized by Lanthanide as Lutetium, which has weak ionic radius recently attracts much attention to obtain the phases thermodynamically stables. In this work, we have chosen to study the development of compositions of type (Gd1 - x Lux) 3Al5 O12 (x = 0, 2 - 0, 3) doped 2 and 5 at % Er+3. The polycrystalline powders were prepared by reaction solid state method. DRX analyses on these synthesized powders confirmed the results of the phases of GdAlO3 perovskite and Gd3Al5O12 garnet due to the higher content of gadolinium stabilized by Lutetium. FTIR analyses have shown the active vibrations modes associated on the specifics absorption bands of M – O (M: metallic elements Gd and Lu or Al). The optical analyzes carried out by the photoluminescence spectroscopy which it study the transitions of Erbium (Er3+) as doping elements in elaborated samples is of great optical importance.
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References
[1] Jinkai Li, Ji-Guang Li, Jing Li, Shaohong Liu, Xiaodong Li, Xudong Sun , Yoshio Sakka , Development of Eu3+ activated monoclinic, perovskite, and garnet compounds in the Gd2O3–Al2O3 phase diagram as efficient red-emitting phosphors. Journal of Solid State Chemistry 206 (2013) 104–112.
[2] Ji-Guang Li and Yoshio Sakka, , 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan. Doi:10.1088/1468-6996/16/1/014902.
[3] Jinkai Li, Ji-Guang Li, Zhongjie Zhang, Xiaoli Wu, Shaohong Liu, Xiaodong Li, Xudong Sun, and Yoshio Sakka. J. Am. Ceram. Soc., 95 [3] 931-936 (2012).Doi: 10.1111/j.1551-2916.2011.04991.x
[4] Raunak kumar Tamrakar, Kanchan Upadhyay, Manjulata Sahu, Spectral characterization of Er3+, Yb3+ co doped GdAlO3 phosphor prepared by solid state reaction method, Journal of Alloys and Compounds 689 (2016) 702-712.
[5] BOUKERIKA ALLAOUA, thèse du doctorat, Elaboration par voie sol-gel et caractérisation des matériaux inorganiques de type grenats (Y, Lu) 3Al5O12 activés aux ions cérium, Université de Jijel, Faculté des Sciences exactes et informatique. Département de Physique en 2014.
[6] Higor Henrique de Souza Oliveira, Marco AurélioCebim, Alison Abreu da Silva, and Marian Rosaly Davolos, Structural and Spectroscopic Studies of Pr +3 Doped GdAlO3, IEEE TRANSACTIONS ON NUCLEAR SCIENCE, VOL. 57, NO. 3, JUNE 2010.
[7] S. Cizauskaite, V. Reichlova, G. Nenartaviciene , A. Beganskiene , J. Pinkas , A. Kareiva , Sol–gel preparation and characterization of gadolinium aluminate, Materials Chemistry and Physics 102 (2007) 105–110.
[8] GIRISH H. N, BASAVALINGU B, SHAO G.-Q, SAJAN C. P., S. K. VERMA, Materials Science-Poland, 33(2), 2015, pp. 301-305 http://www.materialsscience.pwr.wroc.pl/Doi: 10.1515/msp-2015-0045.
[9] S.K. Saji , R. Vinodkumar , Shibu M. Eappen , P.R. SobhanaWariar ,Optical and dielectric characterization of gadolinium aluminate ceramic nanoparticles synthesized by combustion technique, Materials Chemistry and Physics 193 (2017) 189-195.
[10] N. Dhananjaya H. Nagabhushana , B.M. Nagabhushana , R.P.S Chakradhar , C. Shivakumara , B. Rudraswamy , Synthesis, characterization and photoluminescence properties of Gd2O3:Eu3 + nanophosphors prepared by solution combustion method, Physica B 405 (2010) 3795–3799.
[11] LI Yanhong, HONG Guangyan, ZHANG Yongming, DAI Caiyun, DAI Shuping, Vol.23 No.4. Doi 10.1007/s11595-007-4448-0.
[12] Guodong Xia, Sumei Wang1, Shengming Zhou1, 4 and Jun Xu. Nanotechnology 21 (2010) 345601 (5pp). Doi:10.1088/0957-4484/21/34/345601.
[13] LiLi, Xingli Zhang, Xiantao Wei, Guangchuan Wang, and Changxin Guo, Near-Infrared to Visible Up-conversion in Tm3+ and Yb3+Codoped Lu2O3Nanocrystals Synthesized by Hydrothermal Method, Journal of Nanoscience and Nanotechnology, Vol. 14, 4313–4319, 2014 .
[14] HaiGuo , Min Yin, Ning Dong, Mei Xu, Liren Lou, Weiping Zhang, Effect of heat-treatment temperature on the luminescent properties of Lu2O3:Eu film prepared by Pechini sol–gel method, Applied Surface Science 243 (2005) 245–250.
[15] N. Dubnikova, E. Garskaite, J. Pinkas , P. Bezdicka , A. Beganskiene , A. Kareiva. J Sol-Gel Sci Technol (2010) 55:213–219. Doi: 10.1007/s10971-010-2235-4.
[16] R. Praveena, Luminescence Properties of Lu3Al5O12:Tb3+ Nano-garnet, Journal of the Korean Physical Society, Vol. 64, No. 12, June 2014, pp. 1859∼1865.
[17] H. Xu, S. Kröll, Up-conversion dynamics in Er3+ -doped YAG, Journal of Luminescence 111 (2005) 191-198.
[18] Jinkai Li, Ji-Guang Li, Xiaodong Li, Xudong Sun, Up-conversion luminescence of new
Phosphors of Gd3Al5O12: Yb/Er stabilized with Lu3+, Ceramics International 42 (2016)3268-3274.
[19] A. Brenier, A.M. Jurdyc, H. Verweij, M.T. Cohen-Adad, G. Boulon, Up-conversion dynamics in GdAlO3: Er 3+ single crystal fibre, Optical Materials 5 (I 996) 233-238, May 1996.
[20] M. BUIJS, A. MEYERINK and G. BLASSE, ENERGY TRANSFER BETWEEN Eu 3+ IONS IN A LATTICE WITH TWO DIFFERENT CRYSTALLOGRAPHIC SITES: Y2O3 : Eu3+, Gd2O3: Eu3+ and Eu2O3.Journal of Luminescence 37 (1987)9-20.
[21] Ji-Guang Li, Jinkai Li, Qi Zhu, Xuejiao Wang, Xiaodong Li, Xudong Sun, and
Yoshio Sakka, Photoluminescent and cathodoluminescent performances of Tb3+ in the Lu3+-stabilized gadolinium aluminate garnet solid-solutions of [(Gd1-xLux)1-yTby]3 Al5O12, RSC Advances, DOI: 10.1039/C5RA06564J.
[22] Jinkai Li, Ji-Guang Li, and Yoshio Sakka, Investigation of New Red Phosphors of Eu3+ Activated (Gd, Lu) 3Al5O12 Garnet, International Journal of Materials Science and Engineering vol.1,No.1 June 2013.
[2] Ji-Guang Li and Yoshio Sakka, , 1-2-1 Sengen, Tsukuba, Ibaraki 305-0047, Japan. Doi:10.1088/1468-6996/16/1/014902.
[3] Jinkai Li, Ji-Guang Li, Zhongjie Zhang, Xiaoli Wu, Shaohong Liu, Xiaodong Li, Xudong Sun, and Yoshio Sakka. J. Am. Ceram. Soc., 95 [3] 931-936 (2012).Doi: 10.1111/j.1551-2916.2011.04991.x
[4] Raunak kumar Tamrakar, Kanchan Upadhyay, Manjulata Sahu, Spectral characterization of Er3+, Yb3+ co doped GdAlO3 phosphor prepared by solid state reaction method, Journal of Alloys and Compounds 689 (2016) 702-712.
[5] BOUKERIKA ALLAOUA, thèse du doctorat, Elaboration par voie sol-gel et caractérisation des matériaux inorganiques de type grenats (Y, Lu) 3Al5O12 activés aux ions cérium, Université de Jijel, Faculté des Sciences exactes et informatique. Département de Physique en 2014.
[6] Higor Henrique de Souza Oliveira, Marco AurélioCebim, Alison Abreu da Silva, and Marian Rosaly Davolos, Structural and Spectroscopic Studies of Pr +3 Doped GdAlO3, IEEE TRANSACTIONS ON NUCLEAR SCIENCE, VOL. 57, NO. 3, JUNE 2010.
[7] S. Cizauskaite, V. Reichlova, G. Nenartaviciene , A. Beganskiene , J. Pinkas , A. Kareiva , Sol–gel preparation and characterization of gadolinium aluminate, Materials Chemistry and Physics 102 (2007) 105–110.
[8] GIRISH H. N, BASAVALINGU B, SHAO G.-Q, SAJAN C. P., S. K. VERMA, Materials Science-Poland, 33(2), 2015, pp. 301-305 http://www.materialsscience.pwr.wroc.pl/Doi: 10.1515/msp-2015-0045.
[9] S.K. Saji , R. Vinodkumar , Shibu M. Eappen , P.R. SobhanaWariar ,Optical and dielectric characterization of gadolinium aluminate ceramic nanoparticles synthesized by combustion technique, Materials Chemistry and Physics 193 (2017) 189-195.
[10] N. Dhananjaya H. Nagabhushana , B.M. Nagabhushana , R.P.S Chakradhar , C. Shivakumara , B. Rudraswamy , Synthesis, characterization and photoluminescence properties of Gd2O3:Eu3 + nanophosphors prepared by solution combustion method, Physica B 405 (2010) 3795–3799.
[11] LI Yanhong, HONG Guangyan, ZHANG Yongming, DAI Caiyun, DAI Shuping, Vol.23 No.4. Doi 10.1007/s11595-007-4448-0.
[12] Guodong Xia, Sumei Wang1, Shengming Zhou1, 4 and Jun Xu. Nanotechnology 21 (2010) 345601 (5pp). Doi:10.1088/0957-4484/21/34/345601.
[13] LiLi, Xingli Zhang, Xiantao Wei, Guangchuan Wang, and Changxin Guo, Near-Infrared to Visible Up-conversion in Tm3+ and Yb3+Codoped Lu2O3Nanocrystals Synthesized by Hydrothermal Method, Journal of Nanoscience and Nanotechnology, Vol. 14, 4313–4319, 2014 .
[14] HaiGuo , Min Yin, Ning Dong, Mei Xu, Liren Lou, Weiping Zhang, Effect of heat-treatment temperature on the luminescent properties of Lu2O3:Eu film prepared by Pechini sol–gel method, Applied Surface Science 243 (2005) 245–250.
[15] N. Dubnikova, E. Garskaite, J. Pinkas , P. Bezdicka , A. Beganskiene , A. Kareiva. J Sol-Gel Sci Technol (2010) 55:213–219. Doi: 10.1007/s10971-010-2235-4.
[16] R. Praveena, Luminescence Properties of Lu3Al5O12:Tb3+ Nano-garnet, Journal of the Korean Physical Society, Vol. 64, No. 12, June 2014, pp. 1859∼1865.
[17] H. Xu, S. Kröll, Up-conversion dynamics in Er3+ -doped YAG, Journal of Luminescence 111 (2005) 191-198.
[18] Jinkai Li, Ji-Guang Li, Xiaodong Li, Xudong Sun, Up-conversion luminescence of new
Phosphors of Gd3Al5O12: Yb/Er stabilized with Lu3+, Ceramics International 42 (2016)3268-3274.
[19] A. Brenier, A.M. Jurdyc, H. Verweij, M.T. Cohen-Adad, G. Boulon, Up-conversion dynamics in GdAlO3: Er 3+ single crystal fibre, Optical Materials 5 (I 996) 233-238, May 1996.
[20] M. BUIJS, A. MEYERINK and G. BLASSE, ENERGY TRANSFER BETWEEN Eu 3+ IONS IN A LATTICE WITH TWO DIFFERENT CRYSTALLOGRAPHIC SITES: Y2O3 : Eu3+, Gd2O3: Eu3+ and Eu2O3.Journal of Luminescence 37 (1987)9-20.
[21] Ji-Guang Li, Jinkai Li, Qi Zhu, Xuejiao Wang, Xiaodong Li, Xudong Sun, and
Yoshio Sakka, Photoluminescent and cathodoluminescent performances of Tb3+ in the Lu3+-stabilized gadolinium aluminate garnet solid-solutions of [(Gd1-xLux)1-yTby]3 Al5O12, RSC Advances, DOI: 10.1039/C5RA06564J.
[22] Jinkai Li, Ji-Guang Li, and Yoshio Sakka, Investigation of New Red Phosphors of Eu3+ Activated (Gd, Lu) 3Al5O12 Garnet, International Journal of Materials Science and Engineering vol.1,No.1 June 2013.
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Published
2019-04-22
How to Cite
LANEZ, I.; REKIK, B.; DERBAL, M.; CHAIB, A. STRUCTURAL STUDY AND THE EFFECT OF IONIC SIZE OF THE SYSTEMS (Gd1-x LuX) 3Al5 O12 DOPED ERBIUM. Journal of Fundamental and Applied Sciences, [S. l.], v. 11, n. 2, p. 857–874, 2019. DOI: 10.4314/jfas.v11i2.20. Disponível em: https://jfas.info/index.php/JFAS/article/view/352. Acesso em: 30 jan. 2025.
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