Photoluminescence behavior of Al3+, Pr3+ doped perovskite La2/3TiO3 and pyrochlore La2Ti2O7

J. K. Park; C. H. Kim; K. J. Choi; H. D. Park; S. Y. Choi

doi:10.1557/JMR.2001.0352

Abstract

The purpose of this study is to develop an understanding of the photoluminescence properties of Al3+, Pr3+ doped perovskite-type La2/3TiO3 and pyrochlore-type La2Ti2O7 phosphor, which is characterized by the red emission (1D2 →3H4 transition) of the Pr3+ ion. The explanation for the energy transfer and the corresponding critical distance is proposed on the basis of the role of Al3+ ions in the perovskite-type La2/3TiO3:Pr phosphor. To clarify the distinction of photoluminescence properties between the perovskite-type La2/3TiO3 and the pyrochlore-type La2Ti2O7, the trap-involved process and the charge transfer band have been investigated, respectively.

References

1Rez, I.S., in Collected Papers on the Properties of Material Used in Optico-Electronic Devices, Izd. Sibis, Otd. Akad. Nauk USSR 10 (1975).Google Scholar

2Leonov, A.I., Piryutko, M.M., and Keler, E.K., Bull. Acad. Sci. USSR 5, 756 (1966).CrossRef Google Scholar

3Abe, M. and Uchino, K., Mater. Res. Bull. 9, 147 (1974).CrossRef Google Scholar

4Campt, G., Jakani, M., Doumerc, J.P., Claverie, J., and Hagenmuller, P., Solid State Commun. 42, 93 (1982).CrossRef Google Scholar

5Blasse, G., Philips Res. Rep. 24, 131 (1969).Google Scholar

6Carnall, W.T., Fields, P.R., and Rajnak, K., J. Chem. Phys. 49, 4412 (1968).CrossRef Google Scholar

7Chang, I.F. and Sai-Halasz, G.A., J. Electrochem. Soc. 127, 2458 (1980).CrossRef Google Scholar

8Avouris, Ph., Chang, I.F., Dove, D., Morgan, T.N., and Thefaine, Y., J. Electron. Mater. 10, 887 (1981).CrossRef Google Scholar

9Chang, I.F. and Thioulouse, P., J. Appl. Phys. 53, 5873 (1982).CrossRef Google Scholar

10Robbins, D.J., Casewell, N.S., Avouris, Ph., Giess, E.A., Chang, I.F., and Dove, D.B., J. Electrochem. Soc. 132, 2784 (1985).CrossRef Google Scholar

11Campt, G., Claverie, J., and Salvador, P., J. Phys. Chem. Solids 44, 925 (1983).CrossRef Google Scholar

12Bouchard, R.J. and Gillson, J.L., Mater. Res. Bull. 6, 669 (1971).CrossRef Google Scholar

13Blasse, G., Radiationless Processes in Luminescent Materials (Plenum Press, New York, 1980), p. 287.CrossRef Google Scholar

14Kuleshov, N.V., Shcherbitsky, V.G., Lagatsky, A.A., Mikhailov, V.P., Minkov, B.I., Danger, T., Sandrock, T., and Huber, G., J. Lumin. 71, 27 (1997).CrossRef Google Scholar

15Okumura, M., Tamatani, M., Albessard, A.K., and Matosuda, N., Jpn. J. Appl. Phys. 36, 6411 (1977).CrossRef Google Scholar

16Leverenz, H.W., An Introduction to Luminescence of Solids (Dover, New York, 1968), p. 336.Google Scholar

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Panero, Wendy R. Stixrude, Lars and Ewing, Rodney C. 2004. First-principles calculation of defect-formation energies in theY2(Ti,Sn,Zr)2O7pyrochlore. Physical Review B, Vol. 70, Issue. 5,

Liu, Yuan-Wen Lin, Pang and Chu, Ming-Wen 2006. Effects of Pb2+ doping on La4Ti9O24 ceramics. Journal of Materials Science, Vol. 41, Issue. 18, p. 6056.

Liu, Yuan-Wen and Lin, Pang 2006. Phase formation and microwave dielectric properties of Pb2+ and Sr2+ doped La4Ti9O24 ceramics. Materials Research Bulletin, Vol. 41, Issue. 10, p. 1845.

Mandal, B.P. Banerji, Ankita Sathe, Vasant Deb, S.K. and Tyagi, A.K. 2007. Order–disorder transition in Nd2−yGdyZr2O7 pyrochlore solid solution: An X-ray diffraction and Raman spectroscopic study. Journal of Solid State Chemistry, Vol. 180, Issue. 10, p. 2643.

Chen, Zhong Jun Zu, Xiao Tao and Wang, X.Q. 2007. First-Principles Study of Structural and Electronic Property of Pyrochlore Dy2Sn2O7. Advanced Materials Research, Vol. 26-28, Issue. , p. 933.

Chen, Z. J. Xiao, H. Y. Zu, X. T. and Gao, F. 2008. First-principles calculation of defect formation energies and electronic properties in stannate pyrochlores. Journal of Applied Physics, Vol. 104, Issue. 9,

Chen, Z.J. Xiao, H.Y. Zu, X.T. Wang, L.M. Gao, Fei Lian, Jie and Ewing, Rodney C. 2008. Structural and bonding properties of stannate pyrochlores: A density functional theory investigation. Computational Materials Science, Vol. 42, Issue. 4, p. 653.

Murugesan, Sankaran Huda, Muhammad N. Yan, Yanfa Al-Jassim, Mowafak M. and Subramanian, Vaidyanathan (Ravi) 2010. Band-Engineered Bismuth Titanate Pyrochlores for Visible Light Photocatalysis. The Journal of Physical Chemistry C, Vol. 114, Issue. 23, p. 10598.

Ming-Hui, Chu Da-Peng, Jiang Cheng-Jiu, Zhao and Bin, Li 2010. Long-Lasting Phosphorescence Properties of Pyrochlore La2Ti2O7:Pr3+Phosphor. Chinese Physics Letters, Vol. 27, Issue. 4, p. 047203.

Mandal, B.P. Krishna, P.S.R. and Tyagi, A.K. 2010. Order–disorder transition in the Nd2−yYyZr2O7 system: Probed by X-ray diffraction and Raman spectroscopy. Journal of Solid State Chemistry, Vol. 183, Issue. 1, p. 41.

Chen, Zhong-Jun and Tian, Dong-Bin 2010. First-principles study of disordering tendencies in Gd 2 B 2 O 7 ( B = Ti, Sn, Zr) compounds . Chinese Physics B, Vol. 19, Issue. 12, p. 127101.

Singh, Meenu Gill, Jasmeet Kaur Kumar, Suresh and Singh, K. 2012. Preparation of Y2Ti2O7 pyrochlore using high-energy ball milling and their structural, thermal and conducting properties. Ionics, Vol. 18, Issue. 5, p. 479.

Ravi, G. Palla, Suresh Reddy, J. R. Veldurthi, Naveen Kumar Kumar, B. Vijaya and Vithal, M. 2012. Photocatalytic and Conductivity Studies of Bi3+Substituted La2Zr2O7. International Journal of Green Nanotechnology, Vol. 4, Issue. 3, p. 360.

Chen, Zhong-Jun and Chen, Tai-Hong 2012. First-principles calculation of structural and electronic properties of pyrochlore Lu2Sn2O7. Chinese Physics B, Vol. 21, Issue. 2, p. 027103.

Onozuka, K. Kawakami, Y. Imai, H. Yokoi, T. Tatsumi, T. and Kondo, J.N. 2012. Perovskite-type La2Ti2O7 mesoporous photocatalyst. Journal of Solid State Chemistry, Vol. 192, Issue. , p. 87.

Aluri, Esther Rani and Grosvenor, Andrew P. 2013. An X-ray absorption spectroscopic study of the effect of bond covalency on the electronic structure of Gd2Ti2−xSnxO7. Physical Chemistry Chemical Physics, Vol. 15, Issue. 25, p. 10477.

V., Ramadevi G., Ravi Velchuri, Radha C. H., Sameera Devi G., Prasad and M., Vithal 2014. Preparation, characterization, and conductivity of YLnTiZrO7 (Ln = La, Nd, Sm, and Eu). Ionics, Vol. 20, Issue. 3, p. 373.

Farid, Muhammad Asim Asghar, Muhammad Adnan Ashiq, Muhammad Naeem Ehsan, Muhammad Fahad and Athar, Muhammad 2014. Hydrothermal synthesis of doped lanthanum zirconate nanomaterials and the effect of V–Ge substitution on their structural, electrical and dielectric properties. Materials Research Bulletin, Vol. 59, Issue. , p. 405.

Stopyra, M. Moskal, G. and Niemiec, D. 2015. Synthesis and thermal properties of europium zirconate and hafnate via solid state reaction and polymerized complex method. Surface and Coatings Technology, Vol. 284, Issue. , p. 38.

Mayfield, Cedric L Subramanian, Vaidyanathan (Ravi) and Huda, Muhammad N 2015. Free energy dependence of pure phase iron doped bismuth titanate from first principles calculations. Journal of Physics: Condensed Matter, Vol. 27, Issue. 31, p. 315502.

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Photoluminescence behavior of Al3+, Pr3+ doped perovskite La2/3TiO3 and pyrochlore La2Ti2O7

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Photoluminescence behavior of Al3+, Pr3+ doped perovskite La2/3TiO3 and pyrochlore La2Ti2O7

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