Physics of the Solid State
Volumes and Issues
Raman and Photoluminescence Spectra for Yb and Lu doped the Strontium Zirconate SrZrO3
Shkerin S.N.1, Pavlovich A.V.1, Abdurakhimova R.K. 1, Yaroslavtseva T.V. 2, Ul’yanova E. S. 2
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, nastenka_98@mail.ru, arianaboimuradova@yandex.ru, tanya_yaroslavtseva@mail.ru, tsivileva.yekaterina@yandex.ru

PDF
Raman spectra equipment with different wavelengths (532 and 785 nm) was used for investigation of derivatives based on strontium zirconate. A number of reflexes independent of the laser wavelength are identified as the structure related. Sr-O vibration observed at 93 cm-1 is previously discussed in detail in the literature and it is generally accepted that it realizes at the smallest wave numbers. The presence of the 59 cm-1 structure band is shown at first time. It is interpreted as manifestation of vibration of a heavy cation in the strontium position (LuSr)-O. Reflexes that depend on the laser wavelength are considered as related to luminescence. It was evidenced an oxygen vacancies self-manifestation by luminescence using the dependence of line intensity on material composition. It was first time observed for materials with perovskite structure in this study. Keywords: Perovskite structure, SrZrO3, Raman spectroscopy, pointe defects associates luminescence.
  1. H. Iwahara, T. Esaka, H. Uchida, N. Maeda. Solid State Ionics 3-4, 359 (1981)
  2. H. Iwahara, H. Uchida, S. Tanaka. Solid State Ionics 9-10, Part 2, 1021 (1983)
  3. H. Iwahara, H. Uchida, N. Maeda. J. Power Sources 7, 3, 293 (1982)
  4. T. Takahashi, H. Iwahara. Rev. Chim. Miner. 17, 4, 243 (1980)
  5. K.D. Kreuer. Annu. Rev. Mater. Res. 33, 333 (2003)
  6. V.P. Gorelov, V.B. Balakireva, A.V. Kuzmin. Russ. J. Inorg. Chem. 63, 7, 930 (2018)
  7. B. Gharbage, F.M.B. Marques, J.R. Frade. J. Eur. Ceram. Soc. 16, 11, 1149 (1996)
  8. W. Zajac, D. Rusinek, K. Zheng, J. Molenda. Open Chem. 11, 7, 471 (2013)
  9. Z. Shi, W. Sun, Z. Wang, J. Qian, W. Liu. ACS Appl. Mater. Interfaces 6, 7, 5175 (2014)
  10. C.Y. Regalado Vera, H. Ding, D. Peterson, W.T. Gibbons, M. Zhou, D. Ding. J. Phys.: Energy 3, 3, 032019 (2021)
  11. S. Hossain, A.M. Abdalla, S.N.B. Jamain, J.H. Zaini, A.K. Azad. Renewable. Sustainable Energy Rev. 79, C, 750 (2017)
  12. L.A. Dunyushkina, S.A. Belyakov, N.M. Filatov. J. Eur. Ceram. Soc. 43, 15, 6681 (2023)
  13. T. Shimura, M. Komori, H. Iwahara. Solid State Ionics 86-88, Part 1, 685 (1996)
  14. J.A. Labrincha, J.R. Frade, F.M.B. Marques. Solid State Ionics 99, 1-2, 33 (1997)
  15. M. Shiraiwa, T. Kido, K. Fujii, M. Yashima. J. Mater. Chem. A 9, 13, 8607 (2021)
  16. S. Choi, C.J. Kucharczyk, Y. Liang, X. Zhang, I. Takeuchi, H.-I. Ji, S.M. Haile. Nature Energy 3, 3, 202 (2018)
  17. W. Zhang, Y.H. Hu. Energy Sci. Eng. 9, 7, 984 (2021)
  18. L. Lei, J. Zhang, Z. Yuan, J. Liu, M. Ni, F. Chen. Adv. Functional Mater. 29, 37, 1903805 (2019)
  19. A.N. Volkov, E.V. Gorbova, A.I. Vylkov, D.A. Medvedev, A.K. Demin, P.E. Tsiakaras. Sensors. Actuators B 244, 1004 (2017)
  20. K.H. Ryu, S.M. Haile. Solid State Ionics 125, 1, 355 (1999)
  21. D.A. Medvedev, J.G. Lyagaeva, E.V. Gorbova, A.K. Demin, P.E. Tsiakaras. Prog. Mater. Sci. 75, 38 (2016)
  22. Z. Shi, W. Sun, Z. Wang, J. Qian, W. Liu. ACS Appl. Mater. Interfaces 6, 7, 5175 (2014)
  23. I. Kosacki, H.L. Tuller. Solid State Ionics 80, 3-4, 223 (1995)
  24. L. Jiang, T. Norby, D. Han. Chem. Sus. Chem. 16, 14, e202300965 (2023)
  25. Z. Tian, F. Ruan, J. Bao, X. Song, S. An, R. Wu, Q. Jing, H.D. Lv, F. Zhou, M. Xie. Electrochem. 166, 6, B441 (2019)
  26. J. Bao, Y. Okuyama, Z. Shi, N. Fukatsu, N. Kurita. Mater. Trans. 53, 5, 973 (2012)
  27. D.-K. Lim, M.-B. Choi, C.-N. Park, E.D. Wachsman, S.-J. Song. Electrochem. 158, 3, B337 (2011)
  28. D. Perez-Coll, G. Heras-Juaristi, D.P. Fagg, G.C. Mather. Power Sources 245, 445 (2014)
  29. K. Kato, D. Han, T. Uda. J. Amer. Ceram. Soc. 102, 3, 1201 (2019)
  30. S. Imashuku, T. Uda, Y. Nose, K. Kishida, S. Harada, H. Inui, Y. Awakura. J. Electrochem. Soc. 155, 6, B581 (2008)
  31. V.B. Balakireva, V.P. Gorelov, L.A. Dunyushkina, A.V. Kuzmin. Phys. Solid State 61, 4, 515 (2019)
  32. L.A. Dunyushkina, A.S. Khaliullina, A.N. Meshcherskikh, A.A. Pankratov, D.A. Osinkin. Materials 12, 8, 1258 (2019)
  33. A.S. Khaliullina, A.N. Meshcherskikh, A.A. Pankratov, L.A. Dunyushkina. Materials 15, 12, 4126 (2022)
  34. A.S. Khaliullina, A.N. Meshcherskikh, L.A. Dunyushkina. Processes 11, 10, 2939 (2023)
  35. A.V. Pavlovich, A.A. Pankratov, L.A. Dunyushkina. Membranes 13, 7, 663 (2023)
  36. Z. Wang, Z.Q. Chen, J. Zhu, S.J. Wang, X. Guo. Radiation Phys. Chem. 58, 5-6, 697 (2000)
  37. S.N. Shkerin, A.V. Rudakova, K.M. Bulanin, A.S. Khaliullina, A.N. Meshcherskikh, E.G. Vovkotrub, L.A. Dunyushkina. Hydrogen Energy 46, 32, 17007 (2021)
  38. S.N. Shkerin, E.S. Ul'yanova, E.G. Vovkotrub. Inorg. Mater. 57, 11, 1145 (2021)
  39. S.N. Shkerin, E.S. Ulyanova, E.G. Vovkotrub. Phys. Solid State 64, 4, 463 (2022)
  40. S.N. Shkerin, A.N. Meshcherskikh, T.V. Yaroslavtseva, R.K. Abdurakhimova. Phys. Solid State 64, 12, 1951 (2022)
  41. S. Amisi, E. Bousquet, K. Katcho, P. Ghosez. Phys. Rev. B 85, 6, 064112 (2012)
  42. M. Tarrida, H. Larguem, M. Madon. Phys. Chem. Minerals 36, 7, 403 (2009)
  43. O. Kamishima, T. Hattori, K. Ohta, Y. Chiba, M. Ishigame. J. Phys.: Condens. Matter 11, 27, 5355 (1999)
  44. A. Chopelas. Phys. Chem. Miner. 38, 9, 709 (2011)
  45. A. Slodczyk, M.-H. Limage, P. Colomban, O. Zaafrani, F. Grasset, J. Loricourt, B. Sala. Raman Spectroscopy 42, 12, 2089 (2011)
  46. Yu.K. Voron'ko, B.I. Denker, V.V. Osiko. FTT 13, 8, 2193 (1971). (in Russian)
  47. W.T. Carnall, G.L. Goodman, K. Rajnak, R.S. Rana. J. Chem. Phys. 90, 7, 3443 (1989)
  48. C.G. Bunzli, C. Piguet. Chem. Soc. Rev. 34, 12, 1048 (2005)
  49. N.G. Petrik, D.P. Taylor, T.M. Orlando. J. Appl. Phys. 85, 9, 6770 (1999)
  50. Z. Wang, Z.Q. Chen, J. Zhu, S.J. Wang, X. Guo. Rad. Phys. Chem. 58, 5-6, 697 (2000)
  51. J. Costantini, F. Beuneu, M. Fasoli, A. Galli, A. Vedda, M. Martini. J. Phys.: Condens. Matter 23, 115901 (2011)
  52. S. Prawer, R.J. Nemanich. Phil. Trans. R. Soc. A. 362, 1824, 2537 (2004).

Подсчитывается количество просмотров абстрактов ("html" на диаграммах) и полных версий статей ("pdf"). Просмотры с одинаковых IP-адресов засчитываются, если происходят с интервалом не менее 2-х часов.

Дата начала обработки статистических данных - 27 января 2016 г.

Publisher:

Ioffe Institute

Institute Officers:

Director: Sergei V. Ivanov

Contact us:

26 Polytekhnicheskaya, Saint Petersburg 194021, Russian Federation
Fax: +7 (812) 297 1017
Phone: +7 (812) 297 2245
E-mail: post@mail.ioffe.ru