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ECONOMICS AND MANAGEMENT OF PRODUCTION
ArticleName Nanosilicon market
ArticleAuthor Kiselev B. G., Yakushko E. V., Popkova A. V., Kostikova A. V., Rakhlenko A. V.
ArticleAuthorData

“SPONK” JSC, Moscow, Russia

B. G. Kiselev, Chief Executive Officer, e-mail: kbg-48@yandex.ru

 

Institute of Economics and Industrial Enterprises Management, National University of Science and Technology “MISIS”, Moscow, Russia
E. V. Yakushko, Post-graduate Student
A. V. Popkova, Post-graduate Student
A. V. Kostikova, Post-graduate Student
A. V. Rakhlenko, Student

Abstract

This paper is dedicated to directions of new material application – nanosilicon. The purpose we pursue is to demonstrate the broad potential of using silicon nanoparticles and to identify those areas where this material can be successfully applied both from commercial and technological points of view. Being based on the information acquired from authoritative research companies: NanoMarkets LC, McKinsey&Company, MarketResearch.com etc, — it was defined most profitable applications for nanosilicon. The most ground-breaking and promising opportunity is photovoltaics. The solar battery market has been rapidly developing what is confirmed by the European Photovoltaic Industry Association prediction. According to their forecast, global consumption of solar electro energy will increase from 17 GW in 2010 to 44 GW in 2020. Nanosilicon batteries will be able to get a foothold on the photovoltaic market owing to low prices and the high degree of solar energy conversion. Nanosilicon prospects in the non-volatile memory industry are directly related to solving technological tasks. With the assistance of silicon nanoparticles, it will become possible further miniaturization of electronic devices and increase of memory. Significant volume of a potential market and optimistic forecasts of its development make angels turn to investments in the production of nanosilicon. The main obstacle on the way of developing nanosilicon fabrication may be competition from the side of alternative technologies targeted at solving the same problems (ferroelectric, ferromagnetic, ovonic or phase-change memories etc.). Nanosilicon technology commercialization in Russia is related to the thin-film transistors production what we can conclude taking into account a federal programme for extending the application of Radio Frequency Identification (RFID) tags. Other area of the nanosilicon application may become lighting. The depth of market and greatest opportunities for its development allow to count on the positive financial performance in the case of the successful struggle against rivals producing lighting by different technologies. Due to biological properties of nanosilicon, this material can be widely used in the areas of medicine and cosmetics. There are examples of the successful nanosilicon application in cancer therapy (pSivida company) and creation of efficient cosmetics (New Age company). Possible areas of the nanosilicon application analysis allows to make a conclusion that creation of innovative start-ups based on the nanosilicon fabrication and application is a perspective direction for investments. It is confirmed by the prediction of the total nanosilicon product revenues growth from 150 mln. USD in 2010 to more than 2 bln. USD in 2016.

keywords Nanoproduction, nanosilicon, nanosilicon fabrication, photovoltaic, non-volatile memory, thin-film transistors, lighting, cosmetics, medicine, development prospects
References

1. Tretyakov Yu. D., Gudilin E. A. Uspekhi khimii — Russian Chemical Reviews. 2009. Vol. 78, No. 9. pp. 867–888.
2. Belogorokhov А. I., Parkhomenko Yu. N. Izvestiya vysshikh uchebnykh zavedeniy. Materialy Elektronnoy Tekhniki – Proceedings of Universities. Materials of Electronic Technics. 2009. No. 1. pp. 44–52.
3. Opportunities for Nanosilicon: 2009 to 2016. 2009. Available at : http://www.flextech.org/documents/nanomarkets_reports/Nanosilicon_ES.pdf
4. ZDNet. Technology News, Analysis, Comments and Product Reviews for IT Professionals. 2007. Available at : http://www.zdnet.com/blog/emergingtech/nanotechnologyboosts-solar-cells-performance/669
5. Global market outlook for photovoltaics until 2004. 2010. Available at : http://planarsun.novosib.ru/article/Global_Market_Outlook_for_Photovoltaics_until_2014.pdf
6. Fotoelektricheskie elementy i moduli: istoriya, printsip deystviya, tekhnologii, primenenie (Photoelectric components and modules: history, operation principle, technologies, application). 2011. Available at : http://utem.org.ua/fotojelektricheskie_jelementy_batarei_istorija
7. Mikhaylov A. N., Belov A. I., Marychev M. O., Burdov V. A., Tetelbaum D. I. Fizicheskie osnovy ionno-luchevogo formirovaniya i svoystva kvantovykh tochek kremniya v dielektrike (Physical basis of the ion-beam formation and properties of the silicon quantum dots in dielectric). Nizhniу Novgorod : N. I. Lobachevsky State University of Nizhniу Novgorod, 2010.
8. De Blauwe, J. Nanocrystal nonvolatile memory devices. IEEE Transactions on Nanotechnology. 2002. Vol. 1, No. 1. pp. 72–77.
9. Glazman, L. I. Single electron tunneling. Journal of Low Temperature Physics. 2000. Vol. 118, No. 5/6. pp. 247–269.
10. Takahashi N., Ishikuro H., Hiramoto T. A directional current switch using silicon electron transistors controlled by charge injection into silicon nano-crystal floating dots. IEEE International Electron Devices Meeting Technical Digest. 1999. pp. 371–374.
11. MarketResearch.com. Market Research Reports. 2012. Available at : http://www.marketresearch.com/corporate/aboutus/press.asp?view=3&article=2223
12. RFID. Vse o tekhnologiyakh radiochastotnoy identifikatsii (RFID. All about the technologies of radio frequency identification). Saint Petersburg, 2011. Available at : http://www.rfid-news.ru
13. Rossiyskaya Federatsiya planiruet vnedryat RFID-metki v razlichnykh otraslyakh, potentsial rynka otsenivaetsya v 500 millionov dollarov (Russian Federation plans to introduce the RFID — solutions in various industries, the market potential is estimated in 500 USD). Moscow, 2011. Available at : http://www.sitronics.ru/interfax-RFID
14. Rynok monitorov: diagonali rastut, tseny padayut (Market of monitors : diagonals are growing, prices are falling). Kiev, 2011. Available at : http://itbusiness.com.ua/it-businessweek/analytics/30761-2011-05-25-09-38-54.html
15. McKinsey. Report on Lighting the Way.pdf. 2011. Available at : http://www.independenceled.com/pdfs/McKinsey%20-%20Report%20on%20Lighting%20the%20Way.pdf
16. Istochnik osveshcheniya na osnove nanokremnievykh elementov ot Matsushita (Light source on the basis of nanosilicon elements of Matsushita). Moscow, 2011. Available at : http://www.pcweek.ru/themes/detail.php?ID=112220
17. Nanochastitsy kremniya — udachnyy ingredient dlya solntsezashchitnoy kosmetiki. Nauka i tekhnologiуa Rossii (Nanoparticles of silicon is the fortunate ingredient for sunscreen cosmetics. Science and technologies of Russia). Moscow. Available at : http://www.strf.ru/material.aspx?Catalogid=222&d_no=18173
18. Brown S., Brown E., Walker I. The Present and Future Role of Photodynamic Therapy in Cancer Treatment — Lancet Oncol. 2004. Vol. 5. pp. 497.
19. Kovalev D., Gross E., Künzner N., Koch F., Timoshenko V. Yu., Fujii M. Resonant Electronic Energy Transfer from Excitons Confined in Silicon Nanocrystals to Oxygen Molecules. Physical Review Letters. 2002. Vol. 89. pp. 137 – 441.
20. Nanokremniy dlya brakhiterapii onkologicheskikh zabolevaniy (Nano-silicon for the brachytherapy of oncological diseases). 2011. Available at : http://medpositive.ru/?category=onkologiya&altname=Nanokremniy_dlya_brakhiterapii_onkologicheskikh_zabolevaniy

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