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Features of High Current Nanosecond Discharge in Mixture of High Pressure CuInSe2 Chalkopyrite Vapor and Argon

Received: 5 August 2019     Accepted: 20 November 2019     Published: 17 December 2019
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Abstract

The features of an over-voltage high-current nanosecond discharge in argon of high pressure (р=202 kPa) ignited between the electrodes of CuInSe2 compound are presented. In the sputtering of massive chalcopyrite electrodes, the CuInSe2 pair gets into the discharge plasma. Main products of dissociation of chalcopyrite molecules in the over-voltage nanosecond discharge are established. They were in excited and ionized states and in the spectra of plasma radiation they were predominantly represented by atoms and single charged ions of copper and indium. It is proposed to use the spectral lines of copper and indium to control the process of thin films of chalcopyrite deposition in a real time. Using gas-discharge method thin films of chalcopyrite are synthesized on quartz substrates. These films effectively absorb the radiation falling on their surface in the spectral range of 200-800 nm. This property opens the prospects for their application in photovoltaic devices.

Published in Journal of Biomaterials (Volume 3, Issue 2)
DOI 10.11648/j.jb.20190302.11
Page(s) 37-41
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2019. Published by Science Publishing Group

Keywords

Chalcopyrite Electrodes, Over-voltage High-Current Discharge, Excited and Ionized States, Thin Films

References
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[2] M. P. Chuchman, G. E. Laslov, A. K. Shuaibov. Radiation Dynamics of Low-Energy Laser Plasma of CuSbSe2 Polycrstalline//High Temperature. 2014. Vol. 52, №4. P. 497-500.
[3] Alekander K. Shuaibov, Alekander Y. Minya, Mikaylo P. Chuchman, Antonina A. Malinina, Alekander N. Malinin, T. Zoltan Gomoki and Yanosh Ch. Kolozvari. Optical Charachteristics of overstressed nanosecond discharge in atmospheric pressure air between Chalcopyrite electrodes//Plasma Research Express. 2018. №1. 015003 (10 pp).
[4] O. K. Shuaibov, A. O. Malinina, O. M. Malinin. New gas discharge methods for the production of selective ultraviolet and visible radiation and synthesis of nanostructures of transition metal oxides. Monograph. Uzhhorod. Publishing House of UzhNU “Hoverla”, 2019. 188 p.
[5] E. Kh. Bakst, V. F. Tarasenko, Yu. V. Shutko, M. V. Erofeev. A point source of UV radiation with a frequency of 1 kHz and a short pulse duration//News of higher educational institutions. Physics. 2011. No. 11. P. 91-94.
[6] E. Kh. Baksht, V. F. Tarasenko, Yu. V. Shut’ ko, V. V. Erifeev. Point-like pulse-periodic UV radiation source wich a short duration//Quantum Electronics. 2012. Vol. 42, N 2. P. 153-156.
[7] Holovey V. M., Popovych K. P., Prymak M. V., Birov M. M., KrasilinetsV. M., Sidey V. I. X-ray induced optical absorption in Li2B4O7 and Li2B4O7: Cu single crystals and glasses.//Physica B. 2014. V. 450. P. 34-38.
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[9] V. Yu. Kozhevnikov, A. V. Kozyrev, N. M. Dmitrieva. Theoretical 0-D modeling of a subnanosecond high-pressure gas discharge//News of Higher Educational Establishments. Physics. 2014. V. 57, No. 3/2. S. 130-133.
[10] R. V. Hrytsak, A. O. Malinina, O. J. Minya, O. K. Shuaibov, S. Y. Neymet. Characteristics of Overstressed Nanosecond Discharge between Electrodes from Chalcopirite in Argon of Atmospheric Pressure//XIX International Young Scientists Conference on Applied Physics. 21-25 May. 2019. Kyiv. Taras Shevchenko National University. Programme and Abstracts. P. 37-38.
[11] I. E. Kacher, A. K. Shuaibov, M. Yu. Regan, A. I. Dashchenko. Optical diagnostics of laser evaporation of polycrystalline compound CuInS2//Thermophysics of high temperatures. 2002, V. 40, No 6, p. 880-883.
[12] O. K. Shuaibov, M. P. Chuchman, L. L. Shimon, I. E. Kacher. Investigation of optical characteristics and parameters of laser plasma of CuInS2 polycrystalline charge and its components//Ukrainian Physical Journal. 2003. Vol. 48, No. 3, P. 223-231.
[13] A. K. Shuaibov, M. P. Chuchman, A. I. Dashchenko. Investigation of the dynamics of radiation of an erosive laser plasma of a CuInS2 polycrystal//Letters in ZhTF. 2003. V. 29. issue 10. S. 23-28.
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Cite This Article
  • APA Style

    Shuiabov Oleksander, Mynya Oleksander, Chyhin Vasyl, Grytsak Roksolana, Malinina Antonina. (2019). Features of High Current Nanosecond Discharge in Mixture of High Pressure CuInSe2 Chalkopyrite Vapor and Argon. Journal of Biomaterials, 3(2), 37-41. https://doi.org/10.11648/j.jb.20190302.11

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    ACS Style

    Shuiabov Oleksander; Mynya Oleksander; Chyhin Vasyl; Grytsak Roksolana; Malinina Antonina. Features of High Current Nanosecond Discharge in Mixture of High Pressure CuInSe2 Chalkopyrite Vapor and Argon. J. Biomater. 2019, 3(2), 37-41. doi: 10.11648/j.jb.20190302.11

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    AMA Style

    Shuiabov Oleksander, Mynya Oleksander, Chyhin Vasyl, Grytsak Roksolana, Malinina Antonina. Features of High Current Nanosecond Discharge in Mixture of High Pressure CuInSe2 Chalkopyrite Vapor and Argon. J Biomater. 2019;3(2):37-41. doi: 10.11648/j.jb.20190302.11

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  • @article{10.11648/j.jb.20190302.11,
      author = {Shuiabov Oleksander and Mynya Oleksander and Chyhin Vasyl and Grytsak Roksolana and Malinina Antonina},
      title = {Features of High Current Nanosecond Discharge in Mixture of High Pressure CuInSe2  Chalkopyrite Vapor and Argon},
      journal = {Journal of Biomaterials},
      volume = {3},
      number = {2},
      pages = {37-41},
      doi = {10.11648/j.jb.20190302.11},
      url = {https://doi.org/10.11648/j.jb.20190302.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jb.20190302.11},
      abstract = {The features of an over-voltage high-current nanosecond discharge in argon of high pressure (р=202 kPa) ignited between the electrodes of CuInSe2  compound are presented. In the sputtering of massive chalcopyrite electrodes, the CuInSe2  pair gets into the discharge plasma. Main products of dissociation of chalcopyrite molecules in the over-voltage nanosecond discharge are established. They were in excited and ionized states and in the spectra of plasma radiation they were predominantly represented by atoms and single charged ions of copper and indium. It is proposed to use the spectral lines of copper and indium to control the process of thin films of chalcopyrite deposition in a real time. Using gas-discharge method thin films of chalcopyrite are synthesized on quartz substrates. These films effectively absorb the radiation falling on their surface in the spectral range of 200-800 nm. This property opens the prospects for their application in photovoltaic devices.},
     year = {2019}
    }
    

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  • TY  - JOUR
    T1  - Features of High Current Nanosecond Discharge in Mixture of High Pressure CuInSe2  Chalkopyrite Vapor and Argon
    AU  - Shuiabov Oleksander
    AU  - Mynya Oleksander
    AU  - Chyhin Vasyl
    AU  - Grytsak Roksolana
    AU  - Malinina Antonina
    Y1  - 2019/12/17
    PY  - 2019
    N1  - https://doi.org/10.11648/j.jb.20190302.11
    DO  - 10.11648/j.jb.20190302.11
    T2  - Journal of Biomaterials
    JF  - Journal of Biomaterials
    JO  - Journal of Biomaterials
    SP  - 37
    EP  - 41
    PB  - Science Publishing Group
    SN  - 2640-2629
    UR  - https://doi.org/10.11648/j.jb.20190302.11
    AB  - The features of an over-voltage high-current nanosecond discharge in argon of high pressure (р=202 kPa) ignited between the electrodes of CuInSe2  compound are presented. In the sputtering of massive chalcopyrite electrodes, the CuInSe2  pair gets into the discharge plasma. Main products of dissociation of chalcopyrite molecules in the over-voltage nanosecond discharge are established. They were in excited and ionized states and in the spectra of plasma radiation they were predominantly represented by atoms and single charged ions of copper and indium. It is proposed to use the spectral lines of copper and indium to control the process of thin films of chalcopyrite deposition in a real time. Using gas-discharge method thin films of chalcopyrite are synthesized on quartz substrates. These films effectively absorb the radiation falling on their surface in the spectral range of 200-800 nm. This property opens the prospects for their application in photovoltaic devices.
    VL  - 3
    IS  - 2
    ER  - 

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Author Information
  • State Higher Educational Institution "Uzhhorod National University", Uzhhorod, Ukraine

  • State Higher Educational Institution "Uzhhorod National University", Uzhhorod, Ukraine

  • National Land Forces Academy, Lviv, Ukraine

  • State Higher Educational Institution "Uzhhorod National University", Uzhhorod, Ukraine

  • State Higher Educational Institution "Uzhhorod National University", Uzhhorod, Ukraine

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