奈米碳管領域科學與技術連結關係之研究-以臺韓中日為例

Li-Fang Zeng; 曾立芳

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/63248

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	黃慕萱(Mu-Hsuan Huang)
dc.contributor.author	Li-Fang Zeng	en
dc.contributor.author	曾立芳	zh_TW
dc.date.accessioned	2021-06-16T16:30:35Z	-
dc.date.available	2015-01-16
dc.date.copyright	2013-01-16
dc.date.issued	2012
dc.date.submitted	2012-12-24
dc.identifier.citation	Argot, L. (2000). Knowledge Transfer: A Basis for Competitive Advantage in Firms. Organizational Behavior and Human Decision Processes, 82(1), 150-169. Azoulay, P., Ding, W., & Stuart, T. (2007). The determinants of faculty patenting behavior: Demographics or opportunities? Journal of Economic Behavior & Organization, 63(4), 599-623. Boyack, K. W. & Klavans R. (2008). Measuring science-technology interaction using rare inventor-author names, Journal of Informetrics,2, 173-182. Brook, R. H., & Lohr, K. N.(1985). Efficacy, effectiveness, variations, and quality: boundary-crossing research. Medical Care, 23(5), 710-722. Brooks, H. (1994). The relationship between science and technology. Research Policy, 23(5), 477-486. Callaert, J., Van Looy, B., Verbeek, A., Debackere, K., & Thijs, B. (2006). Traces of Prior Art: An analysis of non-patent references found in patent documents. Scientometrics, 69(1), 3-20. Carpenter, M. P., Cooper, M., & Narin, F. (1980). Linkage between Basic Research Literature and Patents. Research Management, 13(2), 30-35. Chen, C., & Hicks, D. (2004). Tracing knowledge diffusion. Scientometrics, 59(2), 199-211. Collins, P., & Wyatt, S. (1988). Citations in patents to the basic research literature. Research Policy, 17(2), 65-74. Cornin, B. (1984). The Citation Process: The Role and Significance of Citations in Scientific Communication. Taylor Graham. Coward, H. R., & Franklin, J. J. (1989). Identifying the science-technology interface：matching patent data to a bibliometric model. Science, Technology and Human, 14, 50-77. Debackere, K., & Veugelers, R. (2005). The role of academic technology transfer organizations in improving industry science links. Research policy, 34, 321-342. Ganguli, P. & Blackman, M. J. R. (1995). Patent documents: a multi-edge tool. World Patent Information, 17(4), 245-256. Glanzel, W., & Meyer, M. (2003). Patents cited in the scientific literature: An exploratory study of 'reverse' citation relations, Scientometrics,58(2), 415-428. Griliches, Z. (1990). Patent Statistics as Economic Indicators: A Survey. Journal of Economic Literature, 28(4), 1661-1707. Grupp, H. & Schmoch U. (1992), Wissenschaftsbindung der Technik. Panorama der internationalen Entwicklung und sektorales Tableau fur Deutschland. Physica: Heidelberg. Guan, J., & He, Y. (2007). Patent-bibliometric analysis on the Chinese science — technology linkages. Scientometrics, 72(3), 403-425. Gupta, V. K. (2006). References to literature in patent documents: A case study of CSIR in India. Scientometrics, 68(1), 29-40. He, Z., & Deng, M. (2007). The evidence of systematic noise in non-patent references: A study of New Zealand companies’ patents. Scientometrics, 72(1), 149-166. Jain, S., George, G., & Maltarich, M. (2009). Academics or entrepreneurs? Investigating role identity modification of university scientists involved in commercialization activity. Research Policy, 38(6), 922-935. Krabel, S., & Mueller, P. (2009). What drives scientists to start their own company?: An empirical investigation of Max Planck Society scientists. Research Policy, 38(6), 947-956. Lubango, L., & Pouris, A. (2007). Industry work experience and inventive capacity of South African academic researchers. Technovation, 27(12), 788-796. MacRobert, M. H. (1989). Problems of citation analysis: A critical review. Journal of the American Society for Information Science, 40(5), 342-349. Meyer M. (2000). Patent citations in a novel field of technology – what can they tell about interaction between emerging communities of science and technology? Scientometrics, 48(2), 151-178. Meyer, M. (2000a). What is special about patent citations? Differences between scientific and patent citations. Scientometrics, 49(1), 93-123. Meyer, M. (2000b). Does science push technology? Patents citing scientific literature. Research Policy, 29(3), 409-434. Meyer, M. (2003). Academic patents as an indicator of useful research? A new approach to measure academic inventiveness. Research Evaluation, 12(1),17-27. Meyer, M. (2006). Knowledge integrators or weak links? An exploratory comparison of patenting researchers with their non-inventing peers in nano-science and technology. Scientometrics, 68(3), 545-560. Meyer, M., Du Plessis, M., Tukeva, T., & Utecht, J.-T. (2005). Inventive output of academic research: A comparison of two science systems. Scientometrics, 63(1), 145-161. MIC產業情報研究所 (2011)。臺日韓軟性顯示技術發展現況。Retrieved September 18, 2011 from http://mic.iii.org.tw/aisp/reports/reportdetail_register.asp?docid=2929&rtype=freereport Narin, F. (1994). Patent bibliometrics. Scientometrics, 30(1), 147-155. Narin, F., & Olivastro, D. (1992). Status report: Linkage between technology and science. Research Policy, 21(3), 237-249. Narin, F., & Olivastro, D. (1998). Linkage between patents and papers: An interim EPO/US comparison. Scientometrics, 41(1-2), 51-59. Narin, F., Hamilton, K. S., & Olivastro, D. (1997). The increasing linkage between U.S. technology and public science. Research Policy, 26(3), 317-330. Narin, F., Noma, E., & Perry, R. (1987). Patents as indicators of corporate technological strength. Research Policy, 16(2-4), 143-155. Noyons, E. C. M., van Raan, A. F. J., Grupp, H., & Schmoch, U. (1994). Exploring the science and technology interface: inventor-author relations in laser medicine research. Research Policy, 23(4), 443-457. Nanowerd (2012). Global carbon nanotubes market - industry beckons. Retrieved June 13, 2012 from http://www.nanowerk.com/spotlight/spotid=23118.php Organization for Economic Co-operation and Development. (1996). The knowledge-based economy. Retrieved January 10, 2012 from http://www.oecd.org/dataoecd/51/8/1913021.pdf Organization for Economic Co-operation and Development. (2002). OECD Global Forum on the Knowledge Economy. Retrieved January 10, 2012 from http://www.oecd.org/dataoecd/48/2/1959692.pdf Palya (2002). Definition of Science. Retrieved January 8, 2012 from http://www.jsu.edu/dept/psychology/sebac/fac-sch/rm/Ch1-3.html Pierce, S. J. (1999). Boundary crossing in research literatures as a means of interdisciplinary information transfer. Journal of the American Society for Information Science, 50(3), 271-279. Pritchard, A. (1969). Statistical Bibliography or Bibliometrics, Journal of Documentation, 25(4), 248. Rabeharisoa, V. (1992). A special mediation between science and technology：When inventors publish scientific articles in fuel cells research. In Grupp, H. (Ed.), Dynamics of science based innovation. Berlin：Springer. Rasmussen, N. (2004). The Moral Economy of the Drug Company–Medical Scientist Collaboration in Interwar America. Social Studies of Science, 34(2), 161 -185. Rip, A. (1992). Science and technology as dancing partners. In: Kroes, P., Bakker, M. Eds., Technological Development and Science in the Industrial Age. Kluwer, n.p., 231-270. Schmoch, U. (1993). Tracing the knowledge transfer from science to technology as reflected in patent indicators. Scientometrics, 26(1), 193-211. Schmoch, U. (1997). Indicators and the relations between science and technology. Scientometrics, 38(1), 103-116. Schmoch, U. (2005). The technological output of scientific institutions. Handbook of Quantitative Science And Technology Research, 5, 717-731. Shibata, N., Kajikawa, Y., & Sakata, I. (2010). Extracting the commercialization gap between science and technology - Case study of a solar cell. Technological Forecasting and Social Change, 77(7), 1147-1155. Simonin, B. L. (1999). Ambiguity and the process of knowledge transfer in strategic alliances. Strategic Management Journal, 20(7), 595-623. Smith, L. C. (1981). Citation Analysis. Library Trends, 30(1), 83-84. Stolpe, M. (2002). Determinants of knowledge diffusion as evidenced in patent data: the case of liquid crystal display technology. Research Policy, 31(7), 1181-1198. Subramanian, A. M., & Soh, P. (2010). An empirical examination of the science-technology relationship in the biotechnology industry. Journal of Engineering and Technology Management, 27(3-4), 160-171. Thomson Reuters (2011). Master Journal List. Retrieved September 6, 2011 from http://science.thomsonreuters.com/mjl/ Tijssen, R. J. W. (2001). Global and domestic utilization of industrial relevant science: patent citation analysis of science-technology interactions and knowledge flows. Research Policy, 30(1), 35-54. Trajtenberg, M., Henderson, R., & Jaffe, A. (2006). University Versus Corporate Patents: A Window On The Basicness Of Invention. Economics of Innovation and New Technology, 5(1), 19-50. United States Patent and Trademark Office (2011). Classification Main Menu. Retrieved September 6, 2011 from http://www.uspto.gov/web/patents/classification/ Van Vianen, B., Moed, H. F., & Van Raan, A. (1990). An exploration of the science base of recent technology. Research Policy, 19(1), 61-81. Van Looy, B., Zimmermann, E., Veugelers, R., Verbeek, A., Mello, J., & Debackere, K. (2003). Do science-technology interactions pay off when developing technology? Scientometrics, 57(3), 355-367. Verbeek, A., Debackere, K., Luwel, M., Andries, P., Zimmermann, E., & Deleus, F. (2002). Linking science to technology: Using bibliographic references in patents to build linkage schemes. Scientometrics, 54(3), 399-420. Walker, R. D. (1995). Patent as scientific and technical literature. The Scarecrow Press：Metuchen, NJ, and London. Weinstock, M. (1971). Citation indexe. Encyclopedia of Library and Information Scienc, 5, 16-40. Westlund, H. (2006). Social Capital in the Knowledge Economy：Theory and Empirics. Cambrige：New York. Web of Science (2012). Scope Notes. Retrieved June 23, 2012 from http://ip-science.thomsonreuters.com/mjl/scope/scope_scie/ 工業技術研究院 (2011)。軟性電子產業推動聯盟(FEIA)。Retrieved November 8, 2011 from http://www.itri.org.tw/chi/eol/p13.asp?RootNodeId=070&NavRootNodeId=0731&nodeid=07317 卞獨敏(2006)。應用專利與非專利文獻建構競爭情報分析模式─以人工腎臟技術發展為例。臺灣大學圖書資訊學研究所未出版碩士論文，臺北。行政院經濟建設委員會 (2009)。兩兆雙星產業發展計畫。Retrieved September 18, 2011 from http://www.cepd.gov.tw/m1.aspx?sNo=0012498 財團法人國家實驗研究院科技政策研究與資訊中心-科技產業資訊室 (2004)。全球OLED廠商分佈。Retrieved November 6, 2011 from http://cdnet.stpi.org.tw/techroom/market/eedisplay/eedisplay037.htm 財團法人國家實驗研究院科技政策研究與資訊中心-科技產業資訊室 (2011)。三星投資 OLED 技術專家 Novaled 公司。Retrieved November 6, 2011 from http://cdnet.stpi.org.tw/techroom/market/eedisplay/2011/eedisplay_11_046.htm 財團法人國家實驗研究院科技政策研究與資訊中心-科技產業資訊室(2012)。重大展業政策。Retrieved June 13, 2012 from http://cdnet.stpi.org.tw/techroom/policy/2012/policy_12_028.htm 教育部重編國語辭典修訂本 (2012)。http://dict.revised.moe.edu.tw/cgi-bin/newDict/dict.sh?idx=dict.idx&cond=%BD%D0&pieceLen=50&fld=1&cat=&imgFont=1 彭于芳(2006)。含阻隔層可撓式有機發光二極體(奈米碳管)黏彈性力學分析。成功大學工程科學所未出版碩士論文，臺南。蔡明月(2005)。論資訊計量學。圖書館學與資訊科學，30(2)，83-91。鄭君丞、葉永輝 (2005)。軟性顯示器發展現況。自動化，12， 10-17。黃建盛(2006)。奈米碳管簡介。Retrieved June 13, 2012 from http://www.lungteng.com.tw/LungTengNet/HtmlMemberArea/publish/Newpaper/013/science
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/63248	-
dc.description.abstract	本研究旨在探討科學與技術連結關係，以奈米碳管領域為例同時深入分析臺灣、南韓、中國大陸及日本四國。以論文與專利分別代表科學與技術，運用引用分析建立兩者連結關係，首先分析奈米碳管領域歷年質量表現，再分析學科領域、國家分布與產官學機構分布，深入瞭解科學技術連結之結構與分布。論文來源為WOS資料庫、專利來源為USPTO專利資料庫，年份取2002年至2011年共十年間之奈米碳管領域資料，取論文52,261篇與專利1,778件，從中析出被引專利741件與被引論文4,093篇做為連結分析。研究結果顯示，基本特性方面，奈米碳管論文與專利偏好引用近期且高品質之資料；指標表現方面，臺灣奈米碳管領域科學技術率表現為四國最佳；四國基礎資料方面，臺韓中日四國論文與專利數量均呈正向成長，專利表現普遍不佳，其中日本被引論文與被引專利對奈米碳管領域影響力最高；學科組成方面，被引論文、被引專利與其來源之間以化學、材料科學等學科連結最強；國家組成方面，專利偏好引用美國與日本論文、論文則偏好引用美國專利；機構組成方面，企業與學術機構之連結最為緊密，政府機構扮演的角色不明顯。	zh_TW
dc.description.abstract	This study aims to contribute to a better understanding of science and technology linkage. Carbon nanotubes were selected as an object of case study, and the country analysis was focus on Taiwan, South Korea, China and Japan. The number of references in patents to scientific papers is considered as an approximation of the science linkage of technology; in the same way, the number of references in papers to technique patents is considered as an approximation of the technology linkage of science. Basic performance, subject distribution, country analysis and institution distribution were discussed from WOS paper-data and USPTO patent-data (from 2002 to 2011). The results shows that, in basic performance, papers and patents both prefer high-quality and recent references. In the index performance, Taiwan has the best science-technology ratios among the four countries, In the basic performance, four countries papers and patents have all steadily grown, however the quality of patents is lower. Among the four countries, the references from Japan bring much more influence on carbon nanotubes. In subject distribution, chemistry and materials science have strong linkage among papers, patents and its references. In country analysis, patents prefer science references from U.S. and Japan, papers patents prefer technique references from U.S. In institution distribution, industries and universities have stronger linkage than other institution links, and government has relatively weak linkage.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T16:30:35Z (GMT). No. of bitstreams: 1 ntu-101-R97126017-1.pdf: 1256058 bytes, checksum: d02e4c77e8dbdd6e0d015af13dd33c29 (MD5) Previous issue date: 2012	en
dc.description.tableofcontents	第一章緒論................................................................................................................1 第一節問題陳述............................................................................................1 第二節研究目的............................................................................................6 第三節研究範圍與限制................................................................................8 第四節名詞解釋..........................................................................................10 第二章文獻探討......................................................................................................15 第一節書目計量與專利計量......................................................................15 第二節科學與技術的連結關係..................................................................23 第三節科學與技術連結關係之實證研究..................................................31 第四節研究對象..........................................................................................46 第三章研究方法與步驟..........................................................................................51 第一節研究方法與指標..............................................................................51 第二節研究架構..........................................................................................54 第三節研究設計..........................................................................................55 第四節研究步驟..........................................................................................61 第四章研究結果與討論..........................................................................................67 第一節全球奈米碳管領域論文與專利質量表現......................................68 第二節臺韓中日四國奈米碳管領域論文與專利質量表現......................82 第三節奈米碳管領域科學與技術連結的學科組成分析........................108 第四節奈米碳管領域科學與技術連結國家與機構分析........................122 第五章結論與建議................................................................................................141 第一節結論................................................................................................141 第二節建議................................................................................................149 第三節後續研究建議................................................................................151 參考文獻....................................................................................................................153
dc.language.iso	zh-TW
dc.subject	專利計量法	zh_TW
dc.subject	書目計量學	zh_TW
dc.subject	引用文獻分析	zh_TW
dc.subject	科學與技術連結	zh_TW
dc.subject	奈米碳管	zh_TW
dc.subject	Bibliometrics	en
dc.subject	Patent bibliometrics	en
dc.subject	Citation analysis	en
dc.subject	Science and technology linkage	en
dc.subject	Carbon nanotubes	en
dc.title	奈米碳管領域科學與技術連結關係之研究-以臺韓中日為例	zh_TW
dc.title	Science and Technology Linkage in Carbon Nanotubes-A Csae Study of Taiwan, South Korea, China and Japan	en
dc.type	Thesis
dc.date.schoolyear	101-1
dc.description.degree	碩士
dc.contributor.oralexamcommittee	林奇秀(Chi-Shiou Lin),林維真(Wei-Jane Lin)
dc.subject.keyword	書目計量學,專利計量法,引用文獻分析,科學與技術連結,奈米碳管,	zh_TW
dc.subject.keyword	Bibliometrics,Patent bibliometrics,Citation analysis,Science and technology linkage,Carbon nanotubes,	en
dc.relation.page	158
dc.rights.note	有償授權
dc.date.accepted	2012-12-24
dc.contributor.author-college	文學院	zh_TW
dc.contributor.author-dept	圖書資訊學研究所	zh_TW
顯示於系所單位：	圖書資訊學系

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