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https://ah.lib.nccu.edu.tw/handle/140.119/136563| 題名: | 專利核心技術追趕之成功因素-以太陽能電池專利為例 Success factors in technology catch-up: A case of solar cell technology |
作者: | 張育綸 Chang, Yu-Lun |
貢獻者: | 李浩仲<br>李文傑 Lee, Hao-Chung<br>Lee, Wen-Chieh 張育綸 Chang, Yu-Lun |
關鍵詞: | 技術追趕 專利網路 合作專利 太陽能電池 Technology catch-up Patent networks Cooperated patent Solar cell |
日期: | 2021 | 上傳時間: | 4-Aug-2021 | 摘要: | 近年來因全球暖化,再生能源逐漸被各國重視,而再生能源中最富發展潛力的當屬太陽能,自1980年以來,世界各國紛紛投入大量資源進行研發、補貼等。其中,採取共同參與研發而產出合作專利被視為產業中技術追趕的重要手段之一。本研究利用IncoPat專利資料庫中的太陽能電池專利資料建構專利網路,且進一步找出核心專利的主要群集組成,試圖分析太陽能電池專利中核心技術的成功追趕因素,研究結果發現,若研發者選擇與過去就能掌握核心技術的機構進行合作研發,所產出的合作專利就越能掌握產業中的核心技術,且當研發廠商自身擁有一定的研發強度時,若採取跨國合作的策略進行研發,則越容易達成技術追趕。 In recent years, due to global warming, renewable energy has gradually been attached importance to various countries. Since 1980, countries around the world have invested a lot of resources in research and development of solar energy. This research investigates the technological catch-up strategy in the solar cell industry. The patents owned by solar cell firms are utilized to compute the main components formed in the patent citation networks of solar cell patents. We find that if the developer chooses to cooperate with institutions that have commanded the core technology in the past, the cooperative patents produced will be able to command the core technologies in the industry. Specifically, international collaboration also helps the core technology development by achieving successful technological catch-up. |
參考文獻: | 方端言,(2019)。美國再生能源發展現況及展望─風力及太陽能發電將為\n主流,台北:工業技術研究院綠色與環境研究所。\n王啟秀、孔祥科、左玉婷,(2008)。全球能源產業趨勢研究—以台灣太陽能\n光電產業為例,中華管理評論國際學報,第十一卷第三期,37。\n科技部前瞻及應用科技司,五大科技產業創新研發計畫—綠能科技產業推動\n方案,2016年。擷取日期:2021年5月28日,網址:\nhttps://ws.ndc.gov.tw/Download.ashx?u=LzAwMS9hZG1pbmlzdHJhdG9yLzEwL3JlbGZpbGUvMC85NzMzL2ZhYThhZDBhLTkxMGYtNDcwOS04OWVjLWNmM2RjZWNhNDM2Yi5wZGY%3d&n=56eR5oqA6YOo44CM57ag6IO956eR5oqA55Si5qWt5o6o5YuV5pa55qGI44CN6Zmi5pyD57Ch5aCxKDEwNTEwMjcpLnBkZg%3d%3d&icon=..pdf。\n張書豪、樊晉源、林品華、洪文琪、陳曉郁,(2015)。太陽能電池產業技術\n與標準初探,臺北:財團法人國家實驗研究院科技政策研究與資訊中\n心。\n張佳文、林福銘,(2017)。單接合太陽能電池現況與堆疊型太陽能電池未來\n挑戰,臺北:工業技術研究院綠色與環境研究所。\n產業價值鏈資訊平台,太陽能產業鏈簡介,臺北:臺灣證券交易所,\n擷取日期:2021年5月28日,\n網址:https://ic.tpex.org.tw/introduce.php?ic=&stk_code=。\n經濟部能源局,《太陽光電計畫推動辦理情形》,臺北:經濟部,擷取日\n期:2021年5月28日,\n網址:\nhttps://www.ey.gov.tw/Page/448DE008087A1971/b0c971403ddd40ae8da5b1dbf401fca4。\n經濟部能源局,「綠能屋頂全民參與」推動方案,臺北:經濟部,2019年。擷取日期:2021年5月28日,網址:\nhttps://www.ey.gov.tw/Page/5A8A0CB5B41DA11E/e9cb7d49-3982-4f9d-8cfe- 8f7096df3acc。\n經濟部能源局,智慧電網總體規劃,臺北:經濟部,2021年。\n擷取日期:2021年5月28日,網址: https://www.moeaboe.gov.tw/ECW/populace/content/Content.aspx?menu_id=9922m。\n\nAlstott, J., Triulzi, G., Yan B. & Luo, J. (2017). Mapping technology space by normalizing patent networks. Scientometrics 110, 443–479.\nAghion, Philippe & Peter Hewitt (1990). A Model of Growth through Creative Destruction, Econometrica, 60, 2 (Much), 323–351.\nCohen, L., Gurun, U. G., & Kominers, S. D. (2016). The growing problem of patent trolling. Science, 352(April 29): 521–522.\nFoster-McGregor, N., Nomaler O. & Verspagen B. (2019). Measuring the creation and adoption of new technologies using trade and patent data, Background paper prepared for UNIDO’s Industrial Development Report 2020, The Future of Industrialisation ,to be published by UNIDO and UNU-MERIT.\nGeorghiou, L. (1998). Global cooperation in research. Research Policy 27, 611–62.\nLanjouw, J.& Schankerman, M. (2004). Patent Quality and Research Productivity: Measuring Innovation with Multiple Indicators, The Economic Journal, Volume 114, Issue 495, Pages 441–465.\nPenner-Hahn, J. & Shaver, J.M. (2005). Does International Research and Development Increase Patent Output? An Analysis of Japanese Pharmaceutical Firms. Strategic Management Journal 26(2):121–140.\nSchankerman, M. & Pakes, A. (1986). Estimates of the value of patent rights in European countries during the post-1950 period. Economic Journal 96: 1052–1077.\nSzücs, F. (2018). Research subsidies, industry–university cooperation and innovation. Research Policy, 47(7), 1256-1266.\nTriulzi, G. (2015). Looking for the right path: technology dynamics, inventive strategies and catching-up in the semiconductor industry. In: Maastricht University (Ph.D.thesis).\nTrajtenberg & Manuel (1990). A penny for your quotes : Patent citations and the value of information. Rand Journal of Economics, 21: 172-187.\nVerspagen, B. (2007). Mapping technological trajectories as patent citation networks: A study on the history of fuel cell research, Advances in Complex Systems, Vol. 10 (1), pp. 93-115. | 描述: | 碩士 國立政治大學 經濟學系 108258027 |
資料來源: | http://thesis.lib.nccu.edu.tw/record/#G0108258027 | 資料類型: | thesis |
| Appears in Collections: | 學位論文 |
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