National Scientific-Technological Agency for Nanomaterials — Indispensable Condition for Successful Development of Future Ukrainian Technosphere
Title | National Scientific-Technological Agency for Nanomaterials — Indispensable Condition for Successful Development of Future Ukrainian Technosphere |
Publication Type | Journal Article |
Year of Publication | 2009 |
Authors | Shirinyan, AS |
Short Title | Nauka innov. |
DOI | 10.15407/scin5.02.032 |
Volume | 5 |
Issue | 2 |
Section | Scientific and Technical Innovative Projects of National Academy of Sciences of Ukraine |
Pagination | 32-37 |
Language | Ukrainian |
Abstract | It is offered to create a modern national scientific-technological agency for nanomaterials (NSTAN), which will become a connective intermediary between the scientifically intensive market sector, government and private companies, and business concerns, groups and leading scientific centers, and will create the nanotechnological network of the country.
|
Keywords | country's nanotechnological network, national scientific-technological agency of nanomaterials, structure of agency subdivisions |
References | 1. Shulaev V.M. O prirode neorganicheskih nanomaterialov. Metalloobrabotka. 2007. N 6: 2-5 [in Russian].
2. Morohov I.D., Petinov V.I., Trusov L.I., Petrunin V.F. Struktura i svojstva malyh metallicheskih chastic. UFN. 1981. 133(4): 653-689 [in Russian]. 3. Petrov Ju.I. Fizika malyh chastic. Moskva: Nauka, 1982 [in Russian]. 4. Nagaev Je. L. Malye metallicheskie chasticy. UFN. 1992. 162(9): 50-120 [in Russian]. 5. Shirinyan A., Gusak A., Wautelet M. Phase diagram versus diagram of solubility: What is the difference for nanosystems? Acta Materialia. 2005. V. 53. P. 5025-5032. http://www.actamat-journals.com https://doi.org/10.1016/j.actamat.2005.07.014 6. Shirinyan A., Gusak A. Phase diagrams of decomposing nanoalloys. Phil. Mag. A. 2004. 84(6): 579- 593. http://www.tandf.co.uk/journals https://doi.org/10.1080/14786430310001635431 7. Nepijko S.A. Fizicheskie svojstva malyh metallicheskih chastic. — Kiev: Nauk. dumka, 1985 [in Russian]. 8. Mei Q.S., Lu K. Melting and superheating of crystalline solids: from bulk to nanocrystals. Progress in Materials Science. 2007. V. 52. P. 1175-1262. http://www.elsevier.com/locate/pmatsci https://doi.org/10.1016/j.pmatsci.2007.01.001 9. Shyrynjan A.S. Dysertacija na zdobuttja naukovogo stupenja kandydata fizyko-matematychnyh nauk. Cherkasy. 2001 [in Ukrainian]. 10. Poruchnyk A. Innovacijnyj potencial Ukrai'ny ta jogo realizacija v mizhnarodnomu naukovo-tehnichnomu spivrobitnyctvi. Mizhnarodna ekonomichna polityka. 2004. N 1: 11-15 [in Ukrainian]. 11. Pro innovacijnu dijal'nist'. Zakon Ukrai'ny. Golos Ukrai'ny. 2002. N 144: 10-15 [in Ukrainian]. 12. DIRECTIVE 2002/95/EC of the European Parliament and of the Council. Official Journal of European Union. http://www.raditek.com/Press%20Releases 13. Soglashenie o sozdanii obshhego nauchno-tehnologicheskogo prostranstva gosudarstv-uchasnikov Sodruzhestva Nezavisimyh Gosudarstv. Innovacii. 2002. N 1: 6-7 [in Russian]. 14. Gorynin I.V. Issledovanija i razrabotki FGUP CNII KM "Prometej" v oblasti konstrukcionnyh nanomaterialov. Rossijskie nanotehnologii. 2007. 2(3-4): 37-57 [in Russian]. 15. Prognoz naukovo-tehnologichnogo ta innovacijnogo rozvytku Ukrai'ny (poperednij variant). Pid redakcijeju akad. NAN Ukrai'ny A.P. Shpaka ta akad. APN Ukrai'ny A.M. Gurija. Uporjadnyky Malic'kyj B.A. ta Popovych O.S. Zb-k materialiv. Kyiv: Feniks, 2006 www.nasu.gov.ua [in Ukrainian]. |