Physics of the Solid State
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Structural and phase features of zinc selenide nanoparticles obtained by laser evaporation
Murzakaev A. M.1, Osipov V. V.1, Platonov V. V.1
1Institute of Electrophysics of the Ural Branch of the Russian Academy of Sciences, Yekaterinburg, Russia
Email: amurzak@mail.ru, osipov@iep.uran.ru, vplatonov76@mail.ru

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The first production of weakly agglomerated zinc selenide nanopowders by evaporation of a target of the required chemical composition in argon using a fiber ytterbium laser is reported. Nanoparticles have the shape of polyhedrons and, more rarely, spheres with an average size of 18 nm. According to XRD data, the obtained nanopowders contain two phases: a stable cubic phase (sphalerite, 40 wt.%) and a metastable hexagonal phase (wurtzite, 60 wt.%). An analysis of HRTEM showed that most of the nanoparticles have structural defects. Due to superstoichiometry, defects in the crystal structure of the crystallographic shift type are formed in nanoparticles. Magneli phases, Wadsley defects and various kinds of heterogeneity inside the particles were found. Keywords: Laser evaporation, zinc selenide, nanoparticles, high resolution transmission electron microscopy (HRTEM), defects, phase composition, crystallographic shift, Magnelli phase, Wadsley defects.
  1. R.H. Page, L.D. De Loach, K.I. Shaffers, F.D. Patel, R.J. Beach, S.A. Payne, W.F. Krupke, A. Burger. Recent developments in Cr2+-doped II-VI compound lasers. In: Advanced Solid-State Lasers, 1996 Technical Digest. Optical Society of America, Washington DC (1996). P. 246
  2. S.B. Mirov, V.V. Fedorov, D.V. Martyshkin, I.S. Moskalev, M.S. Mirov, V.P. Gapontsev. Opt. Mater. Express 1, 5, 898 (2011)
  3. K.N. Firsov, T.M. Gavrishchuk, V.B. Ikonnikov, S.Y. Kazantsev, I.G. Kononov, T.V. Kotereva, N.A. Timofeeva. Laser Phys. Lett. 13, 5, 055002 (2016)
  4. Fizika i khimiya soedineniy AIIBVI / pod red. M. Aven, D.S. Prener. Mir, M. (1970). 624 s. (in Russian)
  5. M.P. Kulakov, V.D. Kulakovsky, I.B. Savchenko, A.V. Fadeev. FTT 18, 909 (1976) (in Russian)
  6. L.T. Steinberger. Prog. Cryst. Growth Charact. Mater. 7, 1-4, 7 (1983)
  7. S.D. Scott, H.L. Barnes. Geochim. Cosmochim. Acta 36, 11, 1275 (1972)
  8. J.F. Wang, A. Omino, M. Isshiki. J. Cryst. Growth 229, 1, 69 (2001)
  9. T.S. Kim, Y.J. Shin, T.S. Jeong, C.T. Choi, P.Y. Yu, K.J. Hong. J. Korean Phys. Soc. 38, 1, 47 (2001)
  10. T. Khanh, E. Mozhevitina, A. Khomyakov, R. Avetisov, A. Davydov, V. Chegnov, V. Antonov, S. Kobeleva, N. Zhavoronkov, I. Avetissov. J. Cryst. Growth 457, 331 (2017)
  11. J.R. Macdonald, S.J. Beecher, A. Lancaster, P.A. Berry, K.L. Schepler, S.B. Mirov, A.K. Kar. Opt. Express 22, 6, 7052 (2014)
  12. S. Vasilyev, I. Moskalev, M. Mirov, V. Smolsky, S. Mirov, V. Gapontsev. Laser Tech. J. 13, 4, 24 (2016)
  13. A.B. Panda, S. Acharya, S. Efrima, Y. Golan, Y. Golan. Langmuir 23, 2, 765 (2007)
  14. W. Zhou, R. Liu, D. Tang, X. Wang, H. Fan, A. Pan, Q. Zhang, Q. Wan, B. Zou. Nanotechnology 24, 5, 055201 (2013)
  15. H. Li, B. Wang, L.J. Li. J. Alloy. Compd. 506, 1, 327 (2010)
  16. B. Feng, J. Cao, D. Han, S. Yang, J. Yang. J. Mater. Sci: Mater. Electron. 26, 5, 3206 (2015)
  17. J.H. Bang, K.S. Suslick. Adv. Mater. 22, 10, 1039 (2010)
  18. E. Mosquera, N. Carvajal. Mater. Lett. 129, 8 (2014)
  19. K.V. Anikin, N.N. Melnik, A.V. Simakin, G.A. Shafeev, V.V. Voronov, A.G. Vitukhnovsky. Chem. Phys. Lett. 366, 3-4, 357 (2002)
  20. H.I. Wang, W.T. Tang, L.W. Liao, P.S. Tseng, C.W. Luo, C.S. Yang, T. Kobayashi. J. Nanomater. 2012, Article ID 278364 (2012)
  21. V.V. Osipov, V.V. Platonov, V.V. Lisenkov. In: Handbook of Nanoparticles / Ed. M. Aliofkhazraei. Springer International Publishing, Cham (2016). P. 633
  22. V.V. Osipov, V.V. Platonov, V.V. Lisenkov, E.V. Tikhonov. Fizika i khimiya obrabotki materialov 5, 5 (2021) (in Russian)
  23. V.V. Osipov, V.V. Platonov, V.V. Lisenkov, E.V. Tikhonov, A.V. Podkin. Appl. Phys. A 124, 1, article 3 (2018)
  24. J.S. Andersson, B. Collen, U. Kuylenstierna, A. Magneli. Acta Chem. Scand. 11, 1641 (1957)
  25. A.D. Wadsley. In: Non-Stoichiometric Compounds / Ed. L. Mandelcorn. Academic Press, N.Y. (1964). P. 98
  26. J.S. Anderson, B.G. Hyde. J. Phys. Chem. Solids 28, 8, 1393 (1967)
  27. L.A. Bursill, B.G. Hyde. Prog. Solid State Chem. 7, 177 (1972)

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