Thermostimulated luminescence mechanisms of UV irradiated zirconium dioxide nanotubes
Petrenyov I. A.1, Vokhmintsev A. S.1, Starovoytova S. A.1, Weinstein I. A.1,2
1Ural Federal University after the first President of Russia B.N. Yeltsin, Yekaterinburg, Russia
2Institute of Metallurgy of Ural Branch of the Russian Academy of Science, Ekaterinburg, Russia
Email: i.a.petrenev@urfu.ru, a.s.vokhmintsev@urfu.ru, i.a.weinstein@urfu.ru
A nanotubular layer of zirconium dioxide was synthesized with anodic oxidation. Curves of spectrally resolved thermostimulated luminescence were studied in the 390-550 nm range after 300 nm UV irradiation. Energetic and kinetic parameters of thermostimulated luminescence curves were estimated. The mechanism of thermally-activated processes involving intrinsic lattice defects is proposed. Keywords: Spectrally resolved thermostimulated luminescence, zirconium dioxide, nanotubes, electron and hole traps.
- H. Tsuchiya, J.M. Macak, A. Glicov, L. Taveira, P. Schmuki. Corros. Sci. 47, 12, 3324 (2005)
- H. Tsuchiya, J.M. Macak, I. Sieber, P. Schmuki. Small 1, 7, 722 (2005)
- W.-J. Lee, W.H. Smyrl. Electrochem. Solid-State Lett. 8, 3, B7 (2005)
- D. Panda, T.-Y. Tseng. Thin Solid Films 531, 1 (2013)
- A.S. Vokhmintsev, R.V. Kamalov, A.V. Kozhevina, I.A. Petrenyov, N.A. Martemyanov, I.A. Weinstein. Proceed. USBEREIT 2018, 348 (2018)
- I.A. Petrenyov, A.S. Vokhmintsev, R.V. Kamalov, I.A. Weinstein. AIP Conf. Proceed. 2174, 020242 (2019)
- S.V. Nikiforov, V.S. Kortov, M.G. Kazantseva, K.A. Petrovykh. J. Lumin. 166, 111 (2015)
- V.M. Orera, R.I. Merino, Y. Chen, R. Cases, P.J. Alonso. Phys. Rev. B 42, 16, 9782 (1990)
- D.S. Aidhy, Y. Zhang, W.J. Weber. Scripta Mater. 98, 16 (2015)
- A.S. Vokhmintsev, R.V. Kamalov, I.A. Petrenyov, I.A. Weinstein. AIP Conf. Proceed. 2313, 030033 (2020)
- F. Trivinho-Strixino, F.E.G. Guimaraes, E.C. Pereira. Chem. Phys. Lett. 461, 1-3, 82 (2008)
- F. Trivinho-Strixino, F.E.G. Guimaraes, E.C. Pereira. Mol. Cryst. Liq. Cryst. 485, 766 (2008)
- X. Wang, J. Zhao, P. Du, L. Guo, X. Xu, C. Tang. Mater. Res. Bull. 47, 11, 3916 (2012)
- M. Wang, X. Wang, J. Lin, X. Ning, X. Yang, X. Zhang, J. Zhao. Ceram. Int. 41, 7, 8444 (2015)
- N. Fu, X. Wang, L. Guo, J. Zhao, X. Zhang, J. Lin, L. Cong, M. Wang, Y. Yang. J. Mater. Sci. Mater. Electron. 28, 10, 7253 (2017)
- D. Liu, M. Wang, L. Gong, J. Zhao, M. Zhu, X. Wang. J. Alloys Compd 864, 158781 (2021)
- E.-Y. Seo, S.-K. Choi, I.-S. Shin, W.-K. Kang. J. Kor. Chem. Soc. 57, 5, 547 (2013)
- S. Stojadinovic, R. Vasilic, M. Petkovic, I. Belv ca, B. Kasalica, M. Peric, Lj. Zekovic. Electrochim. Acta 79, 133 (2012)
- S.V. Nikiforov, V.S. Kortov, D.L. Savushkin, A.S. Vokhmintsev, I.A. Weinstein. Radiation Measurements 106, 155 (2017)
- H.S. Lokesha, K.R. Nagabhushana, F. Singh. J. Lumin. 192, 173 (2017)
- H.S. Lokesha, N. Chauman, K.R. Nagabhushana, F. Singh. Ceram. Int. 44, 15, 18871 (2018)
- H.S. Lokesha, M.L. Chithambo, S. Chikwembani. J. Lumin. 218, 116864 (2020)
- H.S. Lokesha, K.R. Nagabhushana, F. Singh. Opt. Mater. 107, 109984 (2020)
- Y. Cong, B. Li, B. Lei, W. Li. J. Lumin. 126, 2, 822 (2007)
- S.V. Nikiforov, A.A. Menshenina, S.F. Konev. J. Lumin. 212, 219 (2019)
- V. Kiisk, L. Puust, K. Utt, A. Maaroos, H. Mandar, E. Viviani, F. Piccinelli, R. Saar, U. Joost, I. Sildos. J. Lumin. 174, 49 (2016)
- I.A. Petrenyov, R.V. Kamalov, A.S. Vokhmintsev, N.A. Martemyanov, I.A. Weinstein. J. Phys. Conf. Ser. 1124, 2, 022004 (2018)
- A.S. Vokhmintsev, M.G. Minin, A.M.A. Henaish, I.A. Weinstein. Measurement 66, 90 (2015)
- S.W.S. McKeever, R. Chen. Radiation Measurements 27, 5-6, 625 (1997)
- I.A. Weinstein, A.S. Vokhmintsev, M.G. Minin, V.V. Kartashov, I.V. Chernetsky. Radiation Measurements 56, 236 (2013)
- A.S. Vokhmintsev, M.G. Minin, I.A. Weinstein. Radiation Measurements 106, 55 (2017)
- A.V. Kozhevina, A.S. Vokhmintsev, R.V. Kamalov, N.A. Martemyanov, A.V. Chukin, I.A. Weinstein. J. Phys. Conf. Series 917, 6, 062031 (2017)
- Y. Cong, B. Li, S. Yue, D. Fan, X. Wang. J. Phys. Chem. C 113, 31, 13974 (2009)
- T.V. Perevalov, D.V. Gulyaev, V.S. Aliev, K.S. Zhuravlev, V.A. Gritsenko, A.P. Yelisseyev. J. Appl. Phys. 116, 24, 244109 (2014)
- N.G. Petrik, D.P. Taylor, T.M. Orlando. J. Appl. Phys. 85, 9, 6770 (1999)
- N. Korsunska, V. Papusha, O. Kolomys, V. Strelchuk, A. Kuchuk, V. Kladko, Yu. Bacherikov, T. Konstantinova, L. Khomenkova. Phys. Status Solidi C 11, 9-10, 1417 (2014)
- C. Bettinali, G. Ferbaresso, J.W. Manconi. J. Chem. Phys. 50, 9, 3957 (1969)
- K.A. Shoaib, F.H. Hashmi, M. Ali, S.J.H. Bukhari, C.A. Majid. Phys. Status Solidi 40, 2, 605 (1977)
- A.S. Foster, V.B. Sulimov, F. Lopez Gejo, A.L. Shluger, R.M. Nieminen. Phys. Rev. B 64, 22, 224108 (2001).
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.