Analysis and systematization of marketing studies data of the Ukrainian nanopowder market and formation of the program for its development

Authors

DOI:

https://doi.org/10.15587/2312-8372.2019.172152

Keywords:

development prognosis of Ukrainian nanopowders market, marketing research, pricing factors, consuming industries

Abstract

The object of research is the Ukrainian market of nanopowders. Available literature sources do not cover this topic completely. Their data systematization will solve this problem. Therefore, in the paper the literature on the development of the Ukrainian nanotechnology industry is systematized, and the forecast of the period of release of certain nanomaterials to the market is made. The directions of R&D projects in this area are also analyzed, and a valuation of the production of nanomaterials is made.

The literature sources analysis made it possible to note launch and implementation of targeted programs for nanostructured materials and nanotechnology in all leading countries around the world. The indexes and development trends of the modern Ukrainian nanotechnology branch are presented. Ukrainian nanotechnologies market is at the initial stage of its formation. The total amount of investments in nanotechnology projects is dominated by state funding. Today, Ukraine is far behind the developed countries by the volume of private investments in researches in the field of nanotechnology. The commercial nanopowders market in Ukraine is practically not developed. The country is just beginning to introduce nanosized products standards and enterprises certification. The studies of Ukrainian companies in the field of nanotechnologies are aimed at modifying various materials. The terms for the nanopowders release to the commercial market depending on application sectors are proposed. The distribution of Ukrainian enterprises by nanotechnology research fields is presented together with the projects structure depending on the research fields in the nanotechnology area. Costs analysis of the Ukrainian nanopowders market is carried out. It is shown that high costs of nanopowders are due to both low production volume and high costs of raw materials. The main branches-consumers of nanoproducts in Ukraine are presented, and forecasts for market development up to 2025 are made.

Due to the analysis and systematization of literature data of scientists at the Ukrainian market of nanopowders and the consideration of its development programs it becomes possible to obtain objective information on the Ukrainian market of nanopowders and to predict its future development.

Author Biographies

Victor Malyshev, Open International University of Human Development «Ukraine», 23, Lvivska str., Kyiv, Ukraine, 03115

Doctor of Technical Sciences, Professor, Honored Worker of Science and Technology of Ukraine, Director of the Engineering Technological Institute, Head of Department

Department of Automobile Transport and Social Security

Nina Kushchevska, Open International University of Human Development «Ukraine», 23, Lvivska str., Kyiv, Ukraine, 03115

Doctor of Technical Sciences, Professor, Head of Department

Department of Modern Engineering and Nanotechnology

Antonina Korotieieva, Open International University of Human Development «Ukraine», 23, Lvivska str., Kyiv, Ukraine, 03115

PhD, Associate Professor, Professor

Department of Tourism, Documentary and Intercultural Communication

Diana-Maria Bruskova, Open International University of Human Development «Ukraine», 23, Lvivska str., Kyiv, Ukraine, 03115

PhD, Associate Professor

Department of Modern Engineering and Nanotechnology

Mark Zalubovskiy, Open International University of Human Development «Ukraine», 23, Lvivska str., Kyiv, Ukraine, 03115

PhD

Department of Road Transport

Tetiana Lukashenko, Open International University of Human Development «Ukraine», 23, Lvivska str., Kyiv, Ukraine, 03115

PhD, Associate Professor

Department of Modern Engineering and Nanotechnology

References

  1. Korotieieva, A. V., Kushchevska, N. F., Malyshev, V. V. (2015). Doslidzhennia rynku nanoporoshkiv: prohnoz obsiahu vyrobnytstva ta rozvytku, struktura rynku, tsinovyi analiz. Marketynh v Ukraini, 5 (92), 29–33.
  2. Melikhov, I. V. (2002). Tendentsii razvitiia nanokhimii. Rossiiskii khimicheskii zhurnal, 46 (5), 7–13.
  3. Sergeev, G. B. (2002). Razmernye effekty v nanokhimii. Rossiiskii khimicheskii zhurnal, 46 (5), 22–29.
  4. Starostin, V. V. (2008). Materialy i metody nanotekhnologii. Moscow: Binomnaia laboratoriia znanii, 431.
  5. Marketingovoe issledovanie rynka nanoporoshkov (versiia 4. Khronologiia issledovaniia: 2005–2009 gody s prognozami do 2018 goda) (2010). Analiticheskii otchet, 130.
  6. Balabanov, V. I. (2009). Nanotekhnologii. Nauka budushchego. Moscow: Eksmo, 240.
  7. Zhoakim, K., Plever, L. (2009). Nanonauki. Nevidimaia revoliutsiia. Moscow: Kolibri, 240.
  8. Drexler, E. K., Peterson, C., Pergamit, G. (1993). Unbounding the future: The nanotechnology revolution. New York: Quill Books, 166.
  9. Regis, E., Chimsky, M. (1996). Nano: The emerging science of nanotechnology. New York: Little Brown and Co., 416.
  10. Feinman, R. (2002). Vnizu polnym polno mesta: priglashenie v novii mir fiziki. Khimiia i zhizn, 12, 20–26.
  11. Golovin, Iu. I. (2003). Vvedenie v nanotekhnologiiu. Moscow: Mashinostroenie, 112.
  12. Andrievskii, R. A., Ragulia, A. V. (2005). Nanostrukturnye materialy. Moscow: Academia, 187.
  13. Dzidziguri, E. L. (2009). Dimensional characteristics of nanopowders. Nanotechnologies in Russia, 4, 857–870. doi: http://doi.org/10.1134/s1995078009110147
  14. Lerner, M. I., Svarovskaya, N. V., Psakhie, S. G., Bakina, O. V. (2009). Production technology, characteristics, and some applications of electric-explosion nanopowders of metals. Nanotechnologies in Russia, 4, 741–757. doi: http://doi.org/10.1134/s1995078009110019
  15. Palmer, M. Y. (2019). Truong. Introduction to the special issue on the nature of industrial marketing work. Industrial Marketing Management, 2, 350–368. doi: http://doi.org/10.1016/j.indmarman.2019.02.004
  16. Naudé, P., Sutton-Brady, C. (2019). Relationships and networks as examined in Industrial Marketing Management. Industrial Marketing Management, 79, 27–35. doi: http://doi.org/10.1016/j.indmarman.2019.03.006
  17. Ghazinoory, S., Ameri, F., Farnoodi, S. (2013). An application of the text mining approach to select technology centers of excellence. Technological Forecasting and Social Change, 80 (5), 918–931. doi: http://doi.org/10.1016/j.techfore.2012.09.001
  18. Frima, H. J., Gabellieri, C., Nilsson, M.-I. (2012). Drug delivery research in the European Union's Seventh Framework Programme for Research. Journal of Controlled Release, 161 (2), 409–415. doi: http://doi.org/10.1016/j.jconrel.2012.01.044
  19. He, X., Hwang, H.-M. (2016). Nanotechnology in food science: Functionality, applicability, and safety assessment. Journal of Food and Drug Analysis, 24 (4), 671–681. doi: http://doi.org/10.1016/j.jfda.2016.06.001
  20. Morris, J. E. (2018). Nanopackaging: Nanotechnologies and Electronics Packaging. Nanopackaging. Cham: Springer, 1–44. doi: http://doi.org/10.1007/978-3-319-90362-0_1
  21. Di Benedetto, C. A., Lindgreen, A. (2018). The Emergence of Industrial Marketing Management as the Leading Academic Journal in Business-to-Business Marketing. Industrial Marketing Management, 69, 5–12. doi: http://doi.org/10.1016/j.indmarman.2018.01.023
  22. Nilsson, T. (2018). How marketers argue for business – Exploring the rhetorical nature of industrial marketing work. Industrial Marketing Management, 20, 5–17. doi: http://doi.org/10.1016/j.indmarman.2018.10.004
  23. Malyshev, V., Gab, A., Shakhnin, D., Ambrova, M., Danielik, V., Fellner, P. (2012). Review of the electrodeposition of molybdenum carbide on the surfaces of disperse dielectric and semiconductor materials. Acta Chimica Slovaca, 5 (2), 139–144. doi: http://doi.org/10.2478/v10188-012-0021-3
  24. Malyshev, V. V., Gab, A. I., Pisanenko, A. D., Soloviev, V. V., Chernenko, L. A. (2014). Electrodeposition of tungsten and molybdenum carbide onto the surfaces of disperse dielectric and semiconductor materials. Materialwissenschaft Und Werkstofftechnik, 45 (1), 51–56. doi: http://doi.org/10.1002/mawe.201400189
  25. Malyshev, V., Gab, A., Shakhnin, D.,Lukashenko, T., Ishtvanik, O.,Gaune-Escard, M. (2017). High-Temperature Electrochemical Synthesis of Nanopowders of Tungsten Carbide in Ionic Melts. Nanochemistry, Biotech-nology, Nanomaterials. And Their Applications. Springer Proceedings in Physics, 214, 311–321. doi: http://doi.org/10.1007/978-3-319-92567-7_19
  26. Malyshev, V., Gab, A., Shakhnin, D., Schuster, D. (2017). Production of Dispersed Powders of the Silicides of Metals from Group VI-B by the Electrolysis of Halide-Oxide Melts. Materials Science, 52 (4), 550–558. doi: http://doi.org/10.1007/s11003-017-9989-6
  27. Molotovskaia, L. A., Shakhnin, D. B., Uskova, N. N., Malishev, V. V. (2016). Sintez dispersnykh poroshkov silitsidov metallov VI – B gruppy elektrolizom galogenidno-oksidnykh rasplavov. Voprosy khimii i khimicheskoi tekhnologii, 1 (105), 66–71.
  28. Won, C., Nersisyan, H., Won, H., Lee, J. (2010).Refractory metal nanopowders: Synthesis and characterization. Current opinion in solid state and materials science, 14 (3-4), 53–68. doi: http://doi.org/10.1016/j.cossms.2009.10.001
  29. Onischenko, V., Soloviev, V., Solianyk, L., Malyshev, V. (2016). Ecologically sate and resource-saving methods for recycling waste tungsten, niobium carbide-cobalt cermets and extraction of tungsten and niobium from concentrates. Materialwissenschaft und Werkstofftechnik, 47 (9), 852–857. doi: http://doi.org/10.1002/mawe.201600501
  30. Rafailovic, L., Minic, D. (2009). Deposition and characterisation of nanostructured nicel-cobalt alloys. Chemical Industry, 63 (5a), 557–567.
  31. Malyshev, V., Gab, A., Survila, A., Donath, C., Neacsu, E., Popescu, A., Constantin, V. (2019). Electroplating of Co-W and Co-Mo Alloys from Na2WO4 Ionic Melts. Revista de Chimie, 70 (93), 871–874.
  32. Malyshev, V. V., Kushchevska, N. F. (2019). Oderzhannia poroshkiv volframu ta yoho karbidu. Poroshkova metalurhiia, 1, 3–10.
  33. Trakhtenberh, I. M., Dmytrukha, N. M. (2013). Nanochastynky metaliv, metody otrymannia, sfery zastosuvannia, fizyko-khimichni ta tekhnichni vlastyvosti. Ukrainskyi zhurnal z problem medytsyny, 4 (37), 62–74.
  34. Hussain, C. (2018). Handbook of nanomaterials for industrial applications. Elsevier, 1077.
  35. Malyshev, V.,Shakhnin, D. (2013). Corrosion Resistance of Nanopowders of Borides and Carbides of the Metals of Groups IV–VIB in Nickel-Plating Electrolytes. Materials Science, 49 (3), 356–360. doi: http://doi.org/10.1007/s11003-013-9622-2
  36. Wautelet, M., Dauchot, J. P., Hecq, M. (2003). Size effects on the phase diagrams of nanoparticles of various shapes. Materials Science and Engineering: C, 23 (1-2), 187–190. doi: http://doi.org/10.1016/s0928-4931(02)00266-7
  37. Budevski, E., Staikov, G., Lorenz, W. J. (2000). Electrocrystallization. Nucleation and growth phenomena. Electrochimica Acta, 45 (15-16), 2559–2574. doi: http://doi.org/10.1016/s0013-4686(00)00353-4
  38. Lukashenko, T., Kushchevska, N., Malyshev, V. (2014). Zabezpechennia zdorovia ta bezpeky, okhorona navkolyshnoho seredovyshcha – osoblyvi aspekty standartyzatsii nanotekhnolohii i nanomaterialiv. Stroytelnie materyali i izdelyia, 2 (77), 26–27.
  39. Doroshenko, A. M., Chekman, I. S. (2014). Mahnitni nanochastynky: vlastyvosti i biomedychne zastosuvannia. Ukrainskyi medychnyi chasopys, 4 (102), 10–13.
  40. Chekman, I. S., Doroshenko, A. M. (2010). Kliniko-farmakolohichni vlastyvosti nanochastynok zaliza. Ukrainskyi medychnyi chasopys, 3 (77), 44–50.
  41. Haynes, C. L., Van Duyne, R. P. (2001). Nanosphere Lithography: A Versatile Nanofabrication Tool for Studies of Size-Dependent Nanoparticle Optics. The Journal of Physical Chemistry B, 105 (24), 5599–5611. doi: http://doi.org/10.1021/jp010657m
  42. Balabanov, V. I. (2009). Effekt lotosa v avtomobilnoi promyshlennosti. Nanotekhnologii, proizvodstvo, ekologiia, 1, 82–86.
  43. Hlynchuk, M. D., Rahulia, A. V. (2010). Nanoferroyky. Kyiv: Naukova dumka, 381.
  44. Liubchenko, V. E., Mitiagin, A. Iu., Pomortsev, L. A. (2003). Almaz – perspektivnii material dlia nanoelektroniki. Inzhenernaia fizika, 5, 51–58.
  45. Malinetskii, G. G., Mitin, N. A., Naumenko, S. A. (2005). Nanobiologiia i senergetika. Problemy i idei. Moscow, 31.
  46. Erokhin, M. N., Balabanov, V. I., Strelnikov, V. V. (2008). Nanotekhnologii i nanomaterialy v agroinzhenerii. Moscow: MGAU, 300.
  47. Moroz, I. O. (2016). Nanotekhnolohii v osvitnii haluzi. Sumy: Sup DPU, 244.
  48. Lukashenko, T. F., Malyshev, V. V., Gab, A. I., Bruskova, D.-M. Ia. (2016). Didakticheskie osobennosti podgotovki budushchikh inzhenerov khimicheskikh spetsialnostei na primere kursa «Neorganicheskaia khimiia». Problemy sovremennoi nauki i obrazovaniia, 3 (45), 177–180.
  49. Paton, B., Moskalenko, V., Chekman, I., Movchan, B. (2009). Nanonauka i nanotekhnolohii: tekhnichnyi, metodychnyi ta sotsialnyi aspekty. Visnyk NAN Ukrainy, 6, 18–26.
  50. Malyshev, V. V., Lukashenko, T. F., Lypova, L. A., Sushchenko, A. M. (2011). Nanotekhnolohii ta pidhotovka suchasnoho inzhenera v svitli realizatsii pryntsypiv i zavdan Bolonskoho protsesu. Osvita rehioniv, 5, 52–58.
  51. Foster, Ia. Iu. (2008). Mir materialov i tekhnologii. Nanotekhnologii. Nauka, innovatsii i vozmozhnosti. Moscow: Tekhnosfera, 352.
  52. Balabanov, V. I. (2009). Nanotekhnologii. Nauka budushchego. Moscow: Eksmo, 256.
  53. Tretiakov, Iu. D., Gudilin, E. A. (2009). Osnovnye napravleniia fundamentalnykh i orientirovannykh issledovanii v oblasti nanomaterialov. Uspekhi khimii, 78 (9), 867–869.

Downloads

Published

2018-12-31

How to Cite

Malyshev, V., Kushchevska, N., Korotieieva, A., Bruskova, D.-M., Zalubovskiy, M., & Lukashenko, T. (2018). Analysis and systematization of marketing studies data of the Ukrainian nanopowder market and formation of the program for its development. Technology Audit and Production Reserves, 3(4(47), 28–34. https://doi.org/10.15587/2312-8372.2019.172152

Issue

Vol. 3 No. 4(47) (2019): Economics of enterprises. Macroeconomics

Section

Development of Productive Forces and Regional Economy: Original Research

License

Copyright (c) 2019 Victor Malyshev, Nina Kushchevska, Antonina Korotieieva, Diana-Maria Bruskova, Mark Zalubovskiy, Tetiana Lukashenko

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

The consolidation and conditions for the transfer of copyright (identification of authorship) is carried out in the License Agreement. In particular, the authors reserve the right to the authorship of their manuscript and transfer the first publication of this work to the journal under the terms of the Creative Commons CC BY license. At the same time, they have the right to conclude on their own additional agreements concerning the non-exclusive distribution of the work in the form in which it was published by this journal, but provided that the link to the first publication of the article in this journal is preserved.