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Photoluminescence of ytterbium doped zirconia

Russian version

DOI: 10.21883/PSS.2022.04.53502.252

Shkerin S. N.¹, Ulyanova E. S.², Vovkotrub E. G.¹

¹Institute of High-Temperature Electrochemistry, Ural Branch, Russian Academy of Sciences, Yekaterinburg, Russia
²Institute of Solid State Chemistry, Russian Academy of Sciences, Ural Branch, Yekaterinburg, Russia

Email: shkerin@mail.ru

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Raman spectra were studied for the cubic ytterbium doped zirconia with 10, 20 and 25% of dopant. This part of investigation deals with region of large wave numbers. Two different excitation sources with wavelength 785 and 532 nm are used. For first time Stokes lines that are independent of the excitation wavelength were observed together with conventional luminescence of ytterbium cation. Keywords: Zr(Yb)O₂, Raman spectroscopy, photoluminescence, the crystal defects association.

V.N. Chebotin, M.V. Perfilyev. Elektrokhimiya tverdykh elektrolitov. Khimiya, M. (1978). 312 p. (in Russian) [Republished by Washington: Technical Information Center, U.S. Department of Energ (1984).]
M.V. Perfilyev, A.K. Demin, B.L. Kuzin, A.S. Lipilin. Vysokotemperaturny elektroliz gazov. Nauka, M. (1988). 232 p. (in Russian)
V.N. Chebotin. Khimicheskaya diffuziya v tverdykh telakh. Nauka, M. (1989). 208 p. (in Russian)
M. Balkanski, T. Takahashi, H. Tuller. Solid State Ionics. Elsevier, Amsterdam (1992). 345 p
A.K. Ivanov-Shits, I.V. Murin. Ionika tverdogo tela. SPbSU, SPb (2000). Vol. 1. 616 p. (in Russian)
S.C. Singha, K. Kendall. High temperature solid oxide fuel cells: fundamentals, design and applications. Elsevier (2003). 429 p
J. Maier. Physical chemistry of ionic materials: ions and electrons in solids. John Wiley \& Sons (2004). 539 p
A.K. Ivanov-Shits, I.V. Murin. Ionika tverdogo tela. SPbSU, SPb (2010). Vol. 2. 1000 p. (in Russian)
F. Ramadhani, M.A. Hussain, H. Mokhlis, S. Hajimolana. Renew. Sust. Energ. Rev. 76, 460 (2017)
T. Liu,, X. Zhang, X. Wang, J. Yu, L. Li. Ionics 22, 2249 (2016)
S.N. Shkerin. Izv. RAN. Ser. fiz. 66, 890 (2002) (in Russian)
S. Shkerin. Fuel Cell Technologies: State and Perspectives, NATO Science Ser. Mathematics, Physics and Chemistry. Springer 202, 301 (2005)
V. Ivanov, S. Shkerin, A. Rempel, V. Khrustov, A. Lipilin, A. Nikonov. J. Nanosci. Nanotechnol. 10, 11, 7411 (2010)
V.V. Ivanov, S.N. Shkerin, A.A. Rempel, V.R. Khrustov, A.S. Lipilin, A.V. Nikonov. Dokl. RAN 433, 2, 206 (2010) (in Russian)
A.N. Vlasov. Elektrokhimiya 25, 5, 699 (1989) (in Russian)
A.N. Vlasov. Elektrokhimiya 25, 10, 1313 (1989) (in Russian)
A.N. Vlasov. I.G. Shulik. Elektrokhimiya 26, 7, 909 (1990) (in Russian)
A.N. Vlasov. Elektrokhimiya 19, 2, 1624 (1983) (in Russian)
A.N. Vlasov, M.V. Inozemtsev. Elektrokhimiya 21, 6, 764 (1985) (in Russian)
A. Vlasov, M.V. Perfiliev. Solid State Ionics 25, 245 (1987)
A.N. Vlasov. Elektrokhimiya 27, 11, 1479 (1991) (in Russian)
M.A. Borik, A.V. Kulebyakin, I.E. Kuritsyna, E.E. Lomonova, V.A. Myzina, P.A. Popov, F.O. Milovich, N.Yu. Tabachkova. FTT 61, 12, 2390 (2019) (in Russian)
D.A. Agarkov, M.A. Borik, G.M. Korableva, A.V. Kulebyakin, I.E. Kuritsyna, E.E. Lomonova, F.O. Milovich, V.A. Myzina, P.A. Popov, P.A. Ryabochkina. FTT 62, 12, 2093 (2020) (in Russian)
V.G. Keramidas, W.B. White. J. Chem. Phys. 59, 3, 1561 (1973)
E.E. Lomonova, D.A. Agarkov, M.A. Borik, G.M. Yeliseeva, A.V. Kulebyakin, I.E. Kuritsyna, F.O. Milovich, V.A. Myzina, V.V. Osiko, A.S. Chislov, N.Yu. Tabachkova. Elektrokhimiya 56, 2, 127 (2020) (In Russian)
D.A. Long. The Raman effect: A unified treatment of the theory of raman scattering by molecules. John Wiley \& Sons Ltd (2002). 610 p
J. Cui, G. Hope. J. Spectrosc. (Hindawi) 2015, Article ID 940172 (2015). http://dx.doi.org/10.1155/2015/940172
S.N. Shkerin, E.S. Yulyanova, E.G. Vovkotrub. Neorgan. materialy 57, 11, 1213 (2021) (in Russian)
Yu.K. Voronko, B.I. Denker, V.V. Osiko. FTT 13, 8, 2193 (1971) (in Russian)
T. Kallel, M.A. Hassairi, M. Dammak, A. Lyberis, P. Gredin, M. Mortier. J. Alloys Compd. 584, 261 (2014)
W. Tang, Y. Wang, C.-L. Jia. FTT 63, 1, 110 (2021) (in Russian)
Y. Yu, Y. Huang, L. Zhang, Z. Lin, G. Wang. PLoS ONE 8, 1, e54450 (2013). doi: 10.1371/journal.pone.0054450
L. Zhenzhang, Z. Shaoan, X. Qinfang, D. He, L. Yang, L. Xiaohui, W. Chuanlong, J. Jin, H. Yihua. J. Alloys Compd. 766, 663 (2018)
R. Khabibrakhmanov, A. Shurukhina, A. Rudakova, D. Barinov, V. Ryabchuk, A. Emeline, G. Kataeva, N. Serpone. Chem. Phys. Lett. 742, 137136 (2020)
S. Prawer, R. Nemanich. Phil. Trans. R. Soc. A. 362, 2537 (2004)
G. Broden, S.B.Y. Hagstrom T.L. Loucks. Phys. Rev. Lett. 21, 1524 (1968)
J.G. Endriz, W.E. Spicer. Phys. Rev. B 2, 1466 (1970)
P.O. Heden, H. Lofgren, S.G.Y. Hagstrom. Phys. Status Solidi B 49, 721 (1972)
Y. Baer, G. Busch. J. Electron Spectrosc. Rel. Phenom. 5, 627 (1974)
N.G. Petrik, D.P. Taylor, T.M. Orlando. J. Appl. Phys. 85, 6770 (1999)
Z. Wanga, Z.Q. Chena, J. Zhua, S.J. Wanga, X. Guo. Rad. Phys. Chem. 58, 697 (2000)
J. Costantini, F. Beuneu, M. Fasoli, A. Galli, A. Vedda, M. Martini. J. Phys.: Condens. Matter 23, 11590 (2011).

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