Modern level of scientific, innovative and patent activities in Ukraine

Modern level of scientific, innovative and patent activities in Ukraine

Introduction. The development of patent and innovation is impossible without a strong scientific base. That is why the R&D potential of the state is one of the main factors that reflect the level of both economic and technical level of its development. Unfortunately, the level of patent innovati...

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Date:2020
Main Authors: Fesenko, O.M., Korskanov, V.V., Budnyk, O.P., Pogoretskii, P.P.
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Cite this:Modern level of scientific, innovative and patent activities in Ukraine / O.M. Fesenko, V.V. Korskanov, O.P. Budnyk, P.P. Pogoretskii // Наука та інновації. — 2020. — Т. 16, № 6. — С. 83-94. — Бібліогр.: 21 назв. — англ.

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spelling nasplib_isofts_kiev_ua-123456789-1854782025-02-23T17:34:26Z Modern level of scientific, innovative and patent activities in Ukraine Сучасний рівень наукової, інноваційної та патентної діяльності в Україні Fesenko, O.M. Korskanov, V.V. Budnyk, O.P. Pogoretskii, P.P. Cвіт інновацій Introduction. The development of patent and innovation is impossible without a strong scientific base. That is why the R&D potential of the state is one of the main factors that reflect the level of both economic and technical level of its development. Unfortunately, the level of patent innovation in Ukraine is low, despite the strong R&D potential. Problem statement. The efficiency of innovations, trends in nanotechnology patenting, and the level of nanotechnology development in Ukraine are mainly determined by the qualifications of Ukrainian researchers. Therefore, preserving the R&D potential of Ukraine and preventing its outflow abroad are among the most pressing problems today. Purpose. To determine the role of R&D in the economy of Ukraine and the world, the level of publications of Ukrainian authors, the effectiveness, patent circulation, and prospects of innovations in Ukraine. To characterize the world market of nanotechnologies and the level of development of nanotechnologies in Ukraine and to provide a forecast of innovative development in Ukraine and the world. Materials and Methods. Statistical data of R&D potential of Ukraine, number of research works in Ukraine, materials on the quantitative and qualitative level of scholarly research publications of Ukrainian authors, patent circulation, the efficiency of innovations in Ukraine for the period 2010—2017, for forecasting of innovative development in Ukraine and the world on the coming decades. Results. The R&D potential of Ukraine, the current level of nanotechnology, innovation, and trends in their further development have been evaluated. The innovative development in Ukraine and the world until 2030 has been forecasted. Conclusions. Ukraine has a strong R&D potential, but the level of patent and innovation activity in Ukraine is low. Against the background of the integration of Ukrainian researchers into the world community, there is a significant increase in the number of joint scholarly research publications of Ukrainian researchers with foreign colleagues. Вступ. Розвиток патентної та інноваційної діяльності неможливий без потужної наукової бази. Саме тому науковий потенціал держави є одним з основних факторів, що відображає рівень як економічного, так і технічного рівня її розвитку. На жаль, в Україні рівень патентно-інноваційної діяльності є низьким, незважаючи на потужний науковий потенціал. Проблематика. Ефективність інновацій, тенденції патентування нанотехнологій та рівень розвитку нанотехнологій в Україні головним чином визначаються кваліфікацією українських науковців. Тому проблеми збереження наукового потеціалу України та запобігання його відтоку за кордон є одними з найактуальніших на сьогодні. Мета. Визначити роль наукових досліджень в економіці України та світу, рівень публікацій українських авторів, ефективність, патентний обіг та перспективи інновацій в Україні. Охарактеризувати світовий ринок нанотехнологій та рівень розвитку нанотехнологій в Україні та надати прогноз інноваційного розвитку в державі та світі. Матеріали і методи. Використано статистичні дані наукового потенціалу України, кількості науково-дослідних робіт в Україні, матеріали щодо кількісного та якісного рівня наукових публікацій український авторів, патентного обігу, ефективності інновацій в Україні за період 2010—2017 рр. для прогнозування інноваційного розвитку в Україні та світі на найближчі десятиліття. Результати. Зроблено оцінку наукового потенціалу України, сьогоднішнього рівня нанотехнологій, інновацій та тенденцій їхнього подальшого розвитку. Cформовано прогноз інноваційного розвитку в Україні та світі до 2030 року. Висновки. Україна має потужний науковий потенціал, але рівень патентної та інноваційної активності в Україні низький. На фоні інтеграції українських науковців у світову спільноту спостерігається значне збільшення кількості спільних наукових публікацій українських науковців із закордонними колегами. This work was carried in frames of the R&D project №78/19-H Creating an Innovative Information Environment to Support the Development and Commercialization of Nanotechnology in Ukraine. 2020 Article Modern level of scientific, innovative and patent activities in Ukraine / O.M. Fesenko, V.V. Korskanov, O.P. Budnyk, P.P. Pogoretskii // Наука та інновації. — 2020. — Т. 16, № 6. — С. 83-94. — Бібліогр.: 21 назв. — англ. 1815-2066 DOI: doi.org/10.15407/scin16.06.083 https://nasplib.isofts.kiev.ua/handle/123456789/185478 en Наука та інновації application/pdf Видавничий дім "Академперіодика" НАН України
institution Digital Library of Periodicals of National Academy of Sciences of Ukraine
collection DSpace DC
language English
topic Cвіт інновацій
Cвіт інновацій
spellingShingle Cвіт інновацій
Cвіт інновацій
Fesenko, O.M.
Korskanov, V.V.
Budnyk, O.P.
Pogoretskii, P.P.
Modern level of scientific, innovative and patent activities in Ukraine
Наука та інновації
description Introduction. The development of patent and innovation is impossible without a strong scientific base. That is why the R&D potential of the state is one of the main factors that reflect the level of both economic and technical level of its development. Unfortunately, the level of patent innovation in Ukraine is low, despite the strong R&D potential. Problem statement. The efficiency of innovations, trends in nanotechnology patenting, and the level of nanotechnology development in Ukraine are mainly determined by the qualifications of Ukrainian researchers. Therefore, preserving the R&D potential of Ukraine and preventing its outflow abroad are among the most pressing problems today. Purpose. To determine the role of R&D in the economy of Ukraine and the world, the level of publications of Ukrainian authors, the effectiveness, patent circulation, and prospects of innovations in Ukraine. To characterize the world market of nanotechnologies and the level of development of nanotechnologies in Ukraine and to provide a forecast of innovative development in Ukraine and the world. Materials and Methods. Statistical data of R&D potential of Ukraine, number of research works in Ukraine, materials on the quantitative and qualitative level of scholarly research publications of Ukrainian authors, patent circulation, the efficiency of innovations in Ukraine for the period 2010—2017, for forecasting of innovative development in Ukraine and the world on the coming decades. Results. The R&D potential of Ukraine, the current level of nanotechnology, innovation, and trends in their further development have been evaluated. The innovative development in Ukraine and the world until 2030 has been forecasted. Conclusions. Ukraine has a strong R&D potential, but the level of patent and innovation activity in Ukraine is low. Against the background of the integration of Ukrainian researchers into the world community, there is a significant increase in the number of joint scholarly research publications of Ukrainian researchers with foreign colleagues.
format Article
author Fesenko, O.M.
Korskanov, V.V.
Budnyk, O.P.
Pogoretskii, P.P.
author_facet Fesenko, O.M.
Korskanov, V.V.
Budnyk, O.P.
Pogoretskii, P.P.
author_sort Fesenko, O.M.
title Modern level of scientific, innovative and patent activities in Ukraine
title_short Modern level of scientific, innovative and patent activities in Ukraine
title_full Modern level of scientific, innovative and patent activities in Ukraine
title_fullStr Modern level of scientific, innovative and patent activities in Ukraine
title_full_unstemmed Modern level of scientific, innovative and patent activities in Ukraine
title_sort modern level of scientific, innovative and patent activities in ukraine
publisher Видавничий дім "Академперіодика" НАН України
publishDate 2020
topic_facet Cвіт інновацій
url https://nasplib.isofts.kiev.ua/handle/123456789/185478
citation_txt Modern level of scientific, innovative and patent activities in Ukraine / O.M. Fesenko, V.V. Korskanov, O.P. Budnyk, P.P. Pogoretskii // Наука та інновації. — 2020. — Т. 16, № 6. — С. 83-94. — Бібліогр.: 21 назв. — англ.
series Наука та інновації
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fulltext 83 https://doi.org/10.15407/scin16.06.083 fEsENko, o.M., koRskaNov, v.v., BudNyk, o.P., and PogoREtskii, P.P. Institute of Physics, the NAS of Ukraine, 46, Nauky Ave., Kyiv, 03028, Ukraine, +380 44 525 9841, +380 44 525 1589, fizyka@iop.kiev.ua modern level of reSearch, innovation, and patent activitieS in ukraine цитування: fesenko o.M., korskanov v.v., Budnyk o.P., and Pogoretskii P.P. Modern level of Re­ search, innovation, and Patent activities in ukraine. Nauka innov. 2020. v. 16, no. 6. P. 83—94. https://doi. org/ 10.15407/ scin16.06.083 Introduction. The development of patent and innovation is impossible without a strong scientific base. That is why the R&D potential of the state is one of the main factors that reflect the level of both economic and tech­ nical level of its development. Unfortunately, the level of patent innovation in Ukraine is low, despite the strong R&D potential. Problem statement. The efficiency of innovations, trends in nanotechnology patenting, and the level of na­ notechnology development in Ukraine are mainly determined by the qualifications of Ukrainian researchers. Therefore, preserving the R&D potential of Ukraine and preventing its outflow abroad are among the most pres­ sing problems today. Purpose. To determine the role of R&D in the economy of Ukraine and the world, the level of publications of Ukrainian authors, the effectiveness, patent circulation, and prospects of innovations in Ukraine. To characterize the world market of nanotechnologies and the level of development of nanotechnologies in Ukraine and to provide a forecast of innovative development in Ukraine and the world. Materials and Methods. Statistical data of R&D potential of Ukraine, number of research works in Ukraine, materials on the quantitative and qualitative level of scholarly research publications of Ukrainian authors, patent circulation, the efficiency of innovations in Ukraine for the period 2010—2017, for forecasting of innovative development in Ukraine and the world on the coming decades. Results. The R&D potential of Ukraine, the current level of nanotechnology, innovation, and trends in their further development have been evaluated. The innovative development in Ukraine and the world until 2030 has been forecasted. Conclusions. Ukraine has a strong R&D potential, but the level of patent and innovation activity in Ukraine is low. Against the background of the integration of Ukrainian researchers into the world community, there is a signi fi­ cant increase in the number of joint scholarly research publications of Ukrainian researchers with foreign colleagues. K e y w o r d s : innovation activity, patents, nanotechnology, research work. the development of patent and innovation activities is not possible without a strong R&d base. that is why the R&d potential of each country is one of the main factors that reflect the level of both economic and technical level of its development. the notions of patent business, innovation and the level of transfer of nanotechnology are interconnected. since ISSN 1815-2066. Nauka innov. 2020. 16(6) fesenko, o.M., korskanov, v.v., Budnyk, o.P., and Pogoretskii, P.P. 84 ISSN 1815-2066. Nauka innov. 2020. 16 (6) a pa tent is the result of the intellectual activity of a person in any sphere of technology, patent acti­ vity depends directly on the R&d potential of the count ry and determines the level of technological development [1]. unfortunately, in ukraine, the level of patent and innovation activity is low, de­ spite the powerful R&d potential. the main rea­ son for this is the low percentage of gross do­ mestic Product (gdP) spent on financing the research works. in ukraine, this percentage in 2017 was 0.45. While in advanced economies it reaches 5.0. the other is the potential reluctance of managers of enterprises to innovate in order not to disrupt the production process, since the manager personally is not interested in increa­ sing the efficiency of production. another reason is that in some research institutes, research pro­ jects are sometimes up to 90% funded by the Mi­ nistry of defense. and this means that the results of the research works and the associated patents are automatically considered to be closed. r&d potential of ukraine, itS perSonnel, Quantitative and Qualitative compoSition the R&d potential of ukraine is concentrated in three main sectors: academic, branch, and uni­ versity [2]. as of january 1, 2017, there were 661 higher edu­ cational establishments (universities) in uk rai­ ne. training of 3rd and 4th level accreditation is car­ ried out by 289 universities, academies and ins­ titutes. at the beginning of the 2018/19 school year, 652 higher educational institutions opera­ ted in ukraine, which is nine less than in 2017 [3]. of the 107.8 thousand R&d and pedagogical wor­ kers of universities, academies, institutes, almost 57% — Ph.d. (candidates of sciences); 12.6% — doctors of sciences. More thаn 1.340 thousand stu­ dents study at higher educational institutions si­ multaneously. including 127 thousand bachelors and 80 thousand masters. there are 475 institu­ tions in the country in which post­graduate stu­ dents are trained, of which 231 are universities and 277 institutions, in which doctoral studies are in progress, of which 176 are universities. un­ fortunately, due to the economic crisis, the number of postgraduate students and doctoral students in recent years is rapidly decreasing. for the same reason, and due to the more than 50% reduction in funding for the period from 2010 to 2017, the staff of the research institute and the number of research works and development works (R&ds) that were spent over the same period of time have decreased more than twice (table 1). if in the mid­ late 1990s—2000s the decrease in the number of post­graduate students and doctoral students in ukraine was due to the removal of young people to the business, then in recent years this decline is conditioned by the desire of young graduates to enter post­graduate or doctoral studies in Wes­ tern Europe or other advanced economies. imp­ ro ving the quality of education in ukrainian uni­ versities has led to an unexpected result: the out­ Table 1. The Number and Quality of Researchers and R&D in Ukraine Researchers and part from gdP years 2010 2011 2012 2013 2014 2015 2016 2017 Postgraduate training, persons 34653 — — 30740 27622 28487 25963 24786 doctoral training, persons 1532 — — 1795 1759 1821 1792 1646 Research costs, % gdP 0.75 0.65 0.67 0.70 0.60 0.55 0.48 0.45 the state costs, % gdP 0.33 0.29 0.33 0.32 0.25 0.20 0.16 0.16 Researchers in research organizations, thousand individuals 133.7 130.4 122.1 115.8 101.4 90.2 63.7 59.4 Personnel in research organizations, thousand individuals 182.5 175.3 164.3 155.4 136.1 122.5 97.9 94.3 Modern level of Research, innovation, and Patent activities in ukraine ISSN 1815-2066. Nauka innov. 2020. 16 (6) 85 flow of young specialists abroad has increased, due to the fact that the graduate, having received а high­quality education in ukraine, finds it easier to find work abroad. Not the last factor of the low level of develop­ ment of patent and innovation activity in R&d institutions of ukraine is the lack of a single cen­ ter for marketing and management of R&d acti­ vity. this leads to the fact that the majority of re­ gistered patents and innovations are not imple­ mented. it is not uncommon that R&ds in diffe­ rent research institutes overlap, or even duplicate each other. instead, research is conducted in iso­ lation from the needs of the economy. the phaSe and role of the Scholarly reSearch in the economy of ukraine the underfunding the R&d, accompanied by an annual decrease in the share of gdP to finance the RW, against the backdrop of a general reduc­ tion in gdP associated with the economic crisis, has led to a significant reduction in the number of research works and staff of the Research insti­ tutes in ukraine as a whole. another reason for this is the outdated and the fact that the research equipment has exhausted its resources. Measu ring and experimental equipment was manufactured during the ussR, and now there are no funds to buy new ones. at the beginning of this de cade, at­ tempts were made to improve this situation by creating centers for collective use and the acqui­ sition of new experimental equipment in research institutes. however, this did not fundamentally change the situation [4]. the degree of interest of the government in the introduction of new technologies can be exp res­ sed in the ratio of funds invested in the R&d to the total gdP (fig. 1). it is believed that for normal functioning of the economy, the country should spend at least one percent of gdP on own R&d. the countries in which this percentage is lower are classified as countries with a poorly developed economy. if the share of expenditures for the implementation of R&d exceeds 2 per cent, then this country is classified as a country with high development. from the chart higher, it is clear that among the 25 countries ukraine occupies the penultimate po­ sition, ahead of only high­mountainous chile. the highest places in this indicator are high­growth countries — switzerland, israel, south korea, japan, sweden, germany, denmark, finland and the usa. fig. 2 shows the distribution of research works in ukraine for the period from 2013 to 2017 on new types of products, technologies, materials, me thods and theories. in recent years, a large pro portion of methodological and theoretical re­ search in comparison with experimental ones is the result of the insufficiently powerful material and technical base of ukrainian research institu­ tes. the smallest part of the research work is the work on the development of new types of pro­ ducts, which leads to an unsatisfactory range of ukrainian products. Much more in ukraine is paid attention to the development of new inno­ vative energy­saving technologies. this, in par­ 4.25 Israel 0.45 Ukraine (2017) 0.49 Mexico 0.79 Slovakia 0.8 South Africa 0.94 Turkey 0.97 Polland 1.21 Hungary 1.29 Italia 1.6 Canada 1.69 United Kindom 1.93 Europe (average) 2.0 Slovenia 2.11 China 2.25 France 2.34 OECD (average) 2.74 USA 2.75 Finland 2.87 Denmark 2.93 Germany 3.14 Japan 3.25 Sweden 3.37 Switzerland 4.23 South Korea 0.36 Chile Share of R&D expenditure in the world 2017, % of GDP C ou nt ry Fig. 1. share of R&d expenditure in the world, % of gdP [5] fesenko, o.M., korskanov, v.v., Budnyk, o.P., and Pogoretskii, P.P. 86 ISSN 1815-2066. Nauka innov. 2020. 16 (6) ticular, has contributed to the rapid rise in energy prices over the past 5 years. the development of new technologies is central to the experimental research work, but after 2014 the number of tech­ nological developments is decreasing. Probably this is due to the redistribution of funds to the defense department regarding events in the East of ukraine. in recent years, there has been a slight increase in attention to the development and production of new promising materials in ukraine. Economic analysis has shown that it is much more profi­ table to produce materials or products in ukraine, rather than importing raw materials or semi­fi­ nished products. on the other hand, it will create additional jobs and prevent the outflow of wor­ kers abroad. however, on the ground, mana gers of enterprises consider it expedient to im port raw materials and buy ready­made materials, while re­ ceiving a refund of value added tax. this is what inhibits work related to the development of their own innovative materials. on average, the ratio of experimental to theo­ retical R&d works during these years is 0.56, but over time, decreases slightly from 0.60 to 0.45. Quantitative and Qualitative level of the Scholarly reSearch puBlicationS By ukrainian authorS until the beginning of the 2000s, it was very prob­ lematic for ukrainian scholars to access informa­ tion and literary sources from foreign informa tion platforms. ukrainian information platforms we­ re either imperfect, or, in some areas, in general, they we re absent. after the 2000s was some break­ through in this direction and today it is quite easy to obtain the necessary information from sour­ ces of free access. therefore, in recent years the le ­ vel and quality of scholarly research publications of ukrainian scholars have grown rapidly [6]. fig. 3 provides a comparative diagram of the ty pes of publications in the form of monographs, scholarly research articles and textbooks, text­ books and books for the period from 2015 to 2017. as expected, the number of scholarly research ar­ ticles significantly exceeds (30—40 times) the num ber of monographs and the number of trained teaching aids. to a certain extent, this is natural, since the volume of a scholarly research article is much smaller than a monograph, a textbook, or a Fig. 2. R&d results in ukraine, 2013—2017 Type of products Technology Distribution of research works Materials Methods 4 500 4 000 3 500 3 000 2 500 2 000 1 500 1 000 500 2013 2014 2015 2016 2017 577 608 1296 4018 3740 1731 496 490 636 1062 436 3689 417 880 457 495 751 561 4001 4124 0 R & D re su lts in U kr ai ne , 2 01 3– 20 17 Modern level of Research, innovation, and Patent activities in ukraine ISSN 1815-2066. Nauka innov. 2020. 16 (6) 87 tutorial. to write a monograph, one must also se­ lect more than one dozen articles in the same di­ rection and must combine the material in one lo­ gical chain. some materials (examples, tests, tasks, checklist questions, etc.) should also be included in writing tutorials or textbooks. the given diagram illustrates that for the last three years the number of scholarly research ar­ ticles is decreasing. the number of monographs and textbooks over the years remains stable. the quality of published works in the world is usually estimated by the index of citation (h­in­ dex). from fig. 4 it is evident that the index of ukrainian authors' citation is almost 10 times lo­ wer than that of us researchers, 5 times smaller than that of german authors, three times than of chinese, two times then of indian, lower than that of chilean scholars, and only slightly higher than estimating the work of the Belarussian au­ t hors. this situation proves, first of all, that ukrai­ nian researchers have long been isolated from ac­ cess to relevant R&d information and could not understand the perspective directions of the de­ velopment of world science. on the other hand, for certain areas of scholarly research have was established the status of various secrecy, thus de­ nying the possibility for researchers from other countries to receive information about these stu­ dies with the aim of further possible proceedings and quoting. all scholarly research publications, which are fully or partly related to them, may not be allowed to be publicly disclosed, since they contain prohibited information. according to scopus, the results of 2017, most of the works were published in the field of physics and astronomy (3000), less — in materials scien­ ce, mathematics, agriculture, bio logy, energy, pla­ netology, and environmental science, respective­ ly (fig. 5). such a schedule of priorities, in the first place, indicates a rather powerful physics and mathe­ matics school of ukrainian science (physics, ma­ terials science, mathematics) [7]. at the same ti­ me, in the presence of large agricultural land in Fig. 3. Number of scholarly research publications in ukraine, 2015—2017 Type of publications Monographs Scientific articles Books, tutorials 120 000 100 000 80 000 60 000 40 000 20 000 2015 34712921 108090 2688 84053 2875 2877 83855 2966 2016 2017 0 N um be r o f t he p ub lic at io ns in U kr ai ne Fig. 4. h­index in ukraine and wordlwide, 1996—2018 Country 2 000 1 500 1 000 500 USA Germany China India Chile Ukraine Belarus 2077 1131 318 225 158 775 521 0 h- in de x in U kr ai ne a nd w or dl w id e, 1 99 6— 20 18 fesenko, o.M., korskanov, v.v., Budnyk, o.P., and Pogoretskii, P.P. 88 ISSN 1815-2066. Nauka innov. 2020. 16 (6) ukraine, insufficient attention is paid to the de­ velopment of own technologies of land cultiva­ tion, land use culture, agronomy and the develop­ ment of own fertilizers and obtain the biomasses for production the biofuel. instead, agrarians buy fertilizers, land care products abroad, and import foreign technology for land cultivation, and ob­ tain new fertilizers that have not even been tested in ukraine [8]. having enormous own reserves of restorative bioresources almost no attention is paid to the problem of their processing and processing. in­ stead, in 2017—2018, the massive influx of fo reign patented innovative technologies of biomass pro­ cessing into biofuels and biomass into ukraine was recorded [9—11]. the same applies to the prob­ lematic issue of energy. in the presence of biore­ sources, almost no attention is paid to the design and construction of mini­boilers on solid biofuels. Not even taking into account the fact that char­ coal and ash are a valuable fertilizer for many plants. in ukraine there is a shortage of boilers operating on combustion of peat. instead, almost every year peatlands ignite and damage the envi­ Years 40 35 30 25 20 15 10 5 2013201220112010200520001996 2014 2015 2016 2017 21.99 29.84 36.21 37.61 39.11 37.0 36.23 37.99 37.66 38.0 38.2 0 Sh ar e of p ub lic at io ns o f U kr ai ne (S co pu s) Fig. 6. share of international scholarly research publications of ukraine (according to scopus) Fig. 5. the number of scholarly research publications of ukraine by subject areas (according to scopus), 2017. 5000 1 000 1 500 2 000 2 500 3 000 Subject area N um be r o f p ub lic at io ns of U kr ai ne (S co pu s) , 2 01 8 1226 Ecology 1351 Earth and Planetary Sciences 1594 Energy 1680 Agricultural and Biological Sciences 2186 Mathematics 2337 Materials Science 3000 Physics Modern level of Research, innovation, and Patent activities in ukraine ISSN 1815-2066. Nauka innov. 2020. 16 (6) 89 ronment. it should also be noted that with a suf­ ficiently strong woodworking industry, the proces­ sing of wood waste, for example, for the produc­ tion of briquettes for heating residential hou ses, is not established at all. against the background of the integration of ukrainian scholars into the world community from 1996 to 2010, there was a marked increase in the number of joint scholarly research publica­ tions of ukrainian scholars with foreign collea­ gues from 22% to 38% of the total number of pub­ lications (fig. 6). Beginning from 2011 and till now, this figure remains constant. this testifies to the fact that relatively stable international R&d groups with a certain share of contributions to joint publications have been formed at that time. efficiency of innovationS in ukraine, patent activity and proSpectS for their improvement the analysis of the dynamics of expenditures of industrial enterprises for innovations showed that during 2010—2017 these expenditures were approximately constant and amount to an avera­ ge of 7130.5 million uah. during 2010—2013, the level of industrial enterprises' expenditures on innovation programs remained roughly con­ stant at an average of uah 9300 per year (fig. 7). then there was a substantial and gradual increase in these expenditures from about uah 8300 mil­ lion in 2013 up to 12.000 million uah in 2016 analysts attribute this to the growing need of en­ terprises of the military­industrial complex in ad­ vanced innovative technologies to connect with events in the East of ukraine. in 2017, industrial enterprises spent on innovation 9117.5 million uah, which is 60.8% less than in 2016 (fig. 7). the measure of effectiveness can be considered the number of patents received for inventions. unfortunately, for the period from 2010 to 2017, their number is steadily decreasing both in uk­ raine and abroad in general. at the same time, their ratio practically does not change (fig. 8). according to statistics, the number of patents registered in ukraine by ukrainian inventors sig­ nificantly exceeds the number of ukrainian pa­ tents obtained in the united states, Western Euro­ pe, japan, china, and others (fig. 9). this is logi­ cal, since most of the ukrpatent's inventions, or utility models, are associated with the daily lives of ukrainians. the largest number of patents of ukrainian in­ ventors outside ukraine is registered in the uni­ ted states (55% of the number of patents in uk­ raine). less in germany — 14% of the number of patents in ukraine. for other countries, these num­ bers decrease as shown in the diagram (fig. 9). in general, in Europe, the share of ukrainian patents is 54% — almost as much as in the united Fig. 7. Expenses of enterprises for innovation activity in ukraine by years, millions of uah Years 2013 2012 2011 2010 8849.7 10315.2 9878.4 8286.0 9371.1 11372.2 9117.5 12020.4 2 0000 4 000 6 000 8 000 10 000 12 000 2014 2015 2016 2017 Expenses of enterprises for innovation activity in Ukraine by years (millions of UAH) fesenko, o.M., korskanov, v.v., Budnyk, o.P., and Pogoretskii, P.P. 90 ISSN 1815-2066. Nauka innov. 2020. 16 (6) states. the given diagram is indicative and does not reflect the actual picture of the introduction of these patent inventions into the economy [12]. according to the technical branches by sec­ tions in 2017, the chemical industry is the undis­ puted leader, followed by engineering, tools, elect­ rical engineering, and others [13]. in 2017, in ukraine, innovations were imple­ mented at 672 enterprises; 456 enterprises intro­ duced new technological processes, 358 compa­ nies designed innovative products. however, in comparison with previous years, these figures look very unconvincing (table 2). one of the main conditions for a competitive country is the formation and operation of inno­ vati ve infrastructure. currently, there are a large number of organizations that promote innovation in ukraine. the innovative infrastructure of uk­ raine includes 25 scientific and 16 technological parks, its own venture fund, 38 centers for iт commercialization, 108 technology transfer centers Fig. 8. obtained patents for inventions: blue — to the national applicants; red — to the foreign applicants To the national To the foreign applicants Years 2 000 1 500 1 000 500 2010 2011 20132012 2014 2015 2016 2017 2034 1840 1902 2159 1366 1224 1536 1277 14981516 1617 1702 1892 1743 1848 1557 0 O bt ai ne d pa te nt s f or in ve nt io ns Fig. 9. Number of registered patents for inventions in ukraine and worldwide, 2017 C ou nt ry 2000 400 600 800 Number of patents for inventions in the world and Ukraine, 2017 1000 1200 1400 50 United Kindom 20 Polland 193 Others 1224 Ukraine 44 Italia 29 Belgium 27 Russia 25 Austria 46 Netherlands 407 USA 20 China 83 France 171 Germany 73 Japan 25 Sweden 153 Switzerland Fig. 10. Patents for inventions by technical branches (na tio­ nal applicants) for 2017 500 450 400 350 300 250 200 150 100 122 231 456 332 83 50 Electrical engineering Engi- neering OthersInstruments Technical branches Chemistry 0 Pa te nt s ( na tio na l a pp lic an ts ) f or 2 01 7 Modern level of Research, innovation, and Patent activities in ukraine ISSN 1815-2066. Nauka innov. 2020. 16 (6) 91 Table 2. Innovative Products and New Technological Processes Introduced innovative products years 2012 2013 2014 2015 2016 2017 introduced innovative products 3403 3138 3661 3136 4139 2387 including cars, equipment, devices 942 809 1314 966 1305 751 the new technological processes, units 672 640 540 548 978 477 introduced technological processes 2188 1576 1743 1217 3489 1831 low­waste, resource­saving, non­waste 554 502 447 458 748 611 at uni versities, 22 innovation centers, 24 business incubators, 834 innovative enterprises, and 263 other innovative structures [13]. ukraine's glo­ bal innovation index grew by 7 positions and in 2018 and ranked 43rd among the 126 countries that par ticipated in the study. according to the index of global competitiveness, ukraine in 2018 ranks 83rd in the ranking among 140 countries. accor ding to the index of business, as of the be­ ginning of 2019, ukraine improved this indica­ tor by 5 points per year and ranked 71st among 190 countries. the current level of development of nanotechnologieS and trendS in patenting of nanotechnologieS the revolutionary impact of nanoscience and na­ notechnology (N&N) on all areas of modern hu­ man civilization was foreseen in 2005 in the jour­ nal science. currently, researchers are offering powerful nano­tools in this area, which can im­ prove the properties of materials, obtain new na­ n o materials and methods of analysis of nanosci­ ence. on the other hand, basic (nanoscience) and applied (nanotechnology) developments and achie­ vements require information on nanoscale space to carry out their tasks and to make informed and timely decisions. Revolution in the development of measuring instruments in the 20th century (for example, ph meters, potentiometers, nano­ volt me ters and nanoammeters, photometers, fluo­ rimeters, calorimeters, gas and liquid chromato­ graphs, X­ray spectrometers) from the middle of the 21st century was indisputable. the second stage in the evolution of analytical science in the transition between the twentieth and twenty cen­ turies was the use of computers to improve ana­ lytical processes by supporting automation, mi nia­ turization, simplification, and implementation of quality systems, as well as data processing. according to the generally accepted definition, nanoscience is a discipline that studies a sub­ stance in a size that is, in at least one dimension is from 1 to 100 nanometers. Nanotechnology­con­ cept is very broad and includes such branches of science as science of the earth, organic chemist­ ry, molecular biology, physics of semiconductors, etc. [14]. New approaches in nanotechnology are based on molecular self­organization, from the de velopment of new materials with nanoscale di­ mensions to the direct control of matter at the atomic level. the international Patent classifica­ tion (iPc) in the field of patents for nanomate­ rials contains 70,000 applications. the total Pa­ tent classification (tPc) consists of 250,000 app­ lications [15]. as examples, it is the production of carbon nanomaterials, computer systems based on biological objects (including biomolecular com­ puters), nanosized semiconductor devices, etc [16]. other classic examples of nanotechnology and their number are given in table 3. in the field of clean or green energy, in 2015, there were 14 700 applications and there is a rapid increase from year to year. the united states Patent and trademark of­ fice (usPto) and the European Patent office (EPo) are the two most influential patent offices in the world. statistics from orbitdatabase sho wed fesenko, o.M., korskanov, v.v., Budnyk, o.P., and Pogoretskii, P.P. 92 ISSN 1815-2066. Nauka innov. 2020. 16 (6) Table 4. Top Ten Countries for the Patents in 2017 country Patents in nano­ techno­ logy at usPt Patents on nano­ technology in the EPo applica­ tions for nanotech­ nology in usPt applica­ tions for nanotech­ nology in the EPo usa 4316 577 5635 282 south korea 914 105 1326 273 japan 819 188 805 268 taiwan 514 19 591 97 china 416 59 566 25 germany 301 289 413 165 france 210 208 284 92 Netherland 136 71 196 8 united kindom 123 81 187 47 canada 106 22 132 47 that 19 563 patents for nanotechnology were pub­ lis hed in 2016, among which 8484 received pa­ tents and 11 079 published patent app lications [18]. according to statNano, in 2016, a total of 19 563 patents for nanotechnology were published in the usPtо. in total, 3 589 patents for nanotech­ no logy were issued in 2016 and published in the EPo. according to the new statNano definition based on iso / ts 18110, nanotechnology patents must either have at least one nanotechnology cha­ racteristic or have a classification code related to nanotechnology in accordance with the interna­ tional Patent classification (iPc). on the basis of this definition, there are 3 589 patents pub­ lished in the field of nanotechnology in the EPo in 2016, about 18% of the total number of na­ notechnology patents published in the usPtо. 2006 patents were received, and 1 583 patent ap­ plications were issued. countries were ranked by the number of patents granted. the united states ranks first, with a share of over 50% of all nanotechnology patents in the usPtо. south korea and japan occupy the sec­ ond and third plaсes with a great lag behind the uni ted states. statNano shows that in this ran­ king, south korea in 2016 ahead of japan, cana­ da, and other countries. table 4 shows the top 10 countries in the world and the number of published applications for na­ notechnology patents. Strategy of innovation development till 2030 the intensive growth of patent and innovation activity in ukraine in the near future is expected. the main goal is to provide a quick and qualita­ tive transformation of creative ideas into innova­ tive products and services that increase the level of innovation of the national economy. Expected results of patent and innovation ac­ tivities:  reduction of the share of extra­budgetary finan­ cing of R & d;  inhibition of the trend of reducing the number of researchers;  wider use of intellectual property objects;  an increase in the number of entities that pro­an increase in the number of entities that pro­ vide services for the commercialization of tech­ nological solutions;  annual increase in the number of patents for inventions and utility models;  increase in the share of expenses of the intan­increase in the share of expenses of the intan­ gible assets. Table 3. Examples of the Most Widespread Nanotechnologies Name Quantity, documents Nanobiotechnology or nano­medicine 30 000 Nanotechnology for information processing, storage, and transmission 70 000 Nanotechnology for interacting, sensing, and actuating 12000 Nanotechnology for optics 37 000 Nanomagnetism 23 000 Nanotechnology for materials and surface science 88 000 Methods or apparatus for measurement or analysis of nanostructures 11 000 Manufacture or treatment of nanostructures 41 000 in total nearly 240 000 documents classified as nano tech­ nology. Modern level of Research, innovation, and Patent activities in ukraine ISSN 1815-2066. Nauka innov. 2020. 16 (6) 93 concluSionS ukraine has maintained a rather powerful R&d potential, but the level of patent and innovation activity in ukraine is low, as the state spends a small percentage of gdP to carry out the R&d. in recent years, the number of research wor­ kers and research staff has been rapidly dimini­ shing due to chronic under­funding and out­of­ da te experimental equipment in the research in­ stitutes. for this reason, the index of citing the work of ukrainian scholars is low. the weak ma­ terial base of ukrainian research institutes deter­ mines that the ratio of experimental to theoreti­ cal R&d projects in recent years is decreasing. Most patents are registered by ukrainian re­ searchers in ukraine in ukrpatent. ukrainians re ceive the largest number of international pa­ tents in the us, germany, and switzerland. against the background of the integration of ukrainian scholars into the world community, there is a significant increase in the number of joint scholarly research publications of ukrainian scholars with foreign colleagues. thus, in the future, for the development of pa­ tent and innovative activity in ukraine, further integration of ukrainian researchers into the in­ ternational research community is necessary. Acknowledgment: This work was carried in fra­ mes of the R&D project №78/19­H Creating an Innovative Information Environment to Support the Development and Commercialization of Nanotech­ nology in Ukraine. REfERENcEs 1. kishi, k. (2019). technology diffusion, innovation size, and patent policy. European Economic Review, 118, 382—410. doi: https://doi.org/10.1016/j.euroecorev.2019.05.012 2. Scientific potential: essence, structure, dynamics. Regional Economics: textbook. (2008). ternopil [in ukrainian]. 3. ukraine has reduced the number of universities and students. uRl: https://www.rbc.ua/rus/news/ukraine­sokratilos­ kolichestvo­vuzov­studentov­1545898988.html (last accessed: 29.07.2019). 4. organization of research in ukraine. uRl: https://studfiles.net/preview/6696568/ (last accessed: 29.07.2019). 5. concentration of world scientific and technical resources in different countries and regions. uRl: https://studme.com. ua/189808266895/ekonomika/kontsentratsiya_mirovyh_nauchno­tehnicheskih_resursov (last accessed: 29.07.2019). 6. scientific publications and publishing activities of the National academy of sciences of ukraine. uRl: http://www.nas. gov.ua/publications/Pages/default.aspx (last accessed: 29.07.2019). 7. all ukrainian journals in scopus and Web of science. uRl: https://openscience.in.ua/ua­journals (last accessed: 29.07.2019). 8. Canada patent Wo 2016|183685, 24.11.2016 Pct|ca 2016|050569. satish i., sulvaris inc. canada. fertilizer Pellets with Micronized sulfur. 9. gollakota, a. R. k., kishore, N., gu, s. (2018). a review on hydrothermal liquefaction of biomass. Renewable and Sus­ tainable Energy Reviews, 81, 1378—1392. doi: https://doi.org/10.1016/j.rser.2017.05.178 10. Patent USA № 20180142157. (2014). lin k., li l., guo l., cui y., jiang l. composition for Biomass oil, and Preparation Method and use thereof. 11. Patent USA US20180142157, № publ. 20180142157, date publ. 24.05.2018. lin k., li l., guo l., cui y., jiang l. compo­ sition for Biomass oil, and Preparation Method and use thereof. 12. descriptions of ukrainian patents for inventions and utility models. uRl: http://www.uipv.org/ua/opisi_patentiv.html (last accessed: 29.07.2019). 13. innovative infrastructure of ukraine: Problems and Prospects of development. uRl: http://investycii.org/investu­ vanya/konferentsiji/problemy­formuvanya­ta­rozvytku­inovatsijnoji­infrastruktury/inovatsijna­infrastruktura­ukra­ jiny­problemy­ta­perspektyvy­rozvytku (last accessed: 29.07.2019). 14. soriano, M. l., Zougagh, M., valcárceld, M., Ríose, Á. (2018). analytical Nanoscience and Nanotechnology: Where we are and where we are heading. Talanta, 177, 104—121. 15. Nikos, B., varsakelis, c. (2017). international patenting: an application of network analysis. The Journal of Economic Asymmetries, 15, 48—55. 16. gupta, R. k., dwivedy, i. (2005). international patenting activity in the field of carbon nanotubes. Current Applied Phy­ sics, 5(2), 163—170. fesenko, o.M., korskanov, v.v., Budnyk, o.P., and Pogoretskii, P.P. 94 ISSN 1815-2066. Nauka innov. 2020. 16 (6) 17. Mezzanotti, f., simcoe, t. (2019). Patent policy and american innovation after eBay: an empirical examination. Re­ search Policy, 48(5), 1271—1281. doi: https://doi.org/10.1016/j.respol.2019.01.004 18. ferrucci, E., lissoni, f. (2019). foreign inventors in Europe and the united states: diversity and Patent Quality. Re­ search Policy, 48(9), 103774. doi: https://doi.org/10.1016/j.respol.2019.03.019 19. jamasb, t., Pollitt, M.g. (2019). Electricity sector liberalisation and innovation: an analysis of the uk’s patenting ac­ tivities. Research Policy, 40(2), 309—324. doi: https://doi.org/10.1016/j.respol.2010.10.010 20. Nikzad, R. (2014). canadian worldwide patent activity: an industrial level analysis. World Patent Information, 38, 12— 18. doi: https://doi.org/10.1016/j.wpi.2014.03.001 21. dereli, t., durmuşoğlu, a. (2009). Patenting activities in turkey: the case of the textile industry. World Patent Informa­ tion, 31(2), 123—130. doi: https://doi.org/10.1016/j.wpi.2008.07.003. Стаття надійшла до редакції / Received 05.08.19 Статтю прорецензовано / Revised 19.09.19 Статтю підписано до друку / Accepted 07.11.19 Фесенко О.М., Корсканов В.В., Будник О.П., Погорецький П.П. інститут фізики НаН України, просп. Науки, 46, київ, 03028, Україна, +380 44 525 9841, +380 44 525 1589, fizyka@iop.kiev.ua СУчаСНий рівеНь НаУковоЇ, іННоваційНоЇ та патеНтНоЇ ДіЯльНоСті в УкраЇНі Вступ. розвиток патентної та інноваційної діяльності неможливий без потужної наукової бази. Саме тому науковий потенціал держави є одним з основних факторів, що відображає рівень як економічного, так і технічного рівня її розвитку. На жаль, в Україні рівень патентно­інноваційної діяльності є низьким, незважаючи на потужний науко­ вий потенціал. Проблематика. ефективність інновацій, тенденції патентування нанотехнологій та рівень розвитку нанотехноло­ гій в Україні головним чином визначаються кваліфікацією українських науковців. тому проблеми збереження нау­ кового потеціалу України та запобігання його відтоку за кордон є одними з найактуальніших на сьогодні. Мета. визначити роль наукових досліджень в економіці України та світу, рівень публікацій українських авторів, ефективність, патентний обіг та перспективи інновацій в Україні. охарактеризувати світовий ринок нанотехнологій та рівень розвитку нанотехнологій в Україні та надати прогноз інноваційного розвитку в державі та світі. Матеріали і методи. використано статистичні дані наукового потенціалу України, кількості науково­дослідних ро­ біт в Україні, матеріали щодо кількісного та якісного рівня наукових публікацій український авторів, патентного обігу, ефективності інновацій в Україні за період 2010—2017 рр. для прогнозування інноваційного розвитку в Украї­ ні та світі на найближчі десятиліття. Результати. зроблено оцінку наукового потенціалу України, сьогоднішнього рівня нанотехнологій, інновацій та тен ­ денцій їхнього подальшого розвитку. cформовано прогноз інноваційного розвитку в Україні та світі до 2030 року. Висновки. Україна має потужний науковий потенціал, але рівень патентної та інноваційної активності в Україні низький. На фоні інтеграції українських науковців у світову спільноту спостерігається значне збільшення кількості спільних наукових публікацій українських науковців із закордонними колегами. Ключові слова : інноваційна діяльність, патенти, нанотехнології, науково­дослідна робота.

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