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研究生:莊英宏
研究生(外文):Yin-Hung Chuang
論文名稱:染料敏化太陽能電池之專利技術分析
論文名稱(外文):The Patent Analysis of Dye-sensitized Solar cells
指導教授:蘇昭瑾
口試委員:李文仁江慧宜
口試日期:2012-07-27
學位類別:碩士
校院名稱:國立臺北科技大學
系所名稱:有機高分子研究所
學門:工程學門
學類:化學工程學類
論文種類:學術論文
論文出版年:2012
畢業學年度:100
語文別:中文
論文頁數:83
中文關鍵詞:專利分析染料敏化太陽能電池
外文關鍵詞:Patent analysisDye-sensitized solar cell
相關次數:
  • 被引用被引用:1
  • 點閱點閱:295
  • 評分評分:
  • 下載下載:40
  • 收藏至我的研究室書目清單書目收藏:0
由於染料敏化太陽能電池(DSSC)的專利技術日新月異,其光電轉換的效能並搭配光學穿透性、色彩多元性、基板可撓曲性與自動化生產製程皆已達到商業化量產的投資效益及規模。本研究將逐一檢視目前已達商業化量產規模的染料敏化太陽能電池並探討所使用的關鍵技術專利來源,其中包含染料敏化太陽能電池模組、集光、冷卻、封裝、染料、電極結構、電極材料及透光層等各項專利。以作為台灣產學界及各研發單位在染料敏化太陽能電池在研發技術與專利上值得更進一步思考並加以突破的地方。

2006年在英國所成立的G24 Innovations公司,為目前首家商業化量產DSSC的公司,其DSSC技術來自於瑞士洛桑聯邦理工學院的Michael Grätzel團隊。該製程採用捲對捲(Roll to Roll)連續式的自動化生產 DSSC,未來將持續朝向無溶劑電解質、更薄的膠體塗料、更薄的鈦箔及防潮性更佳之封膠進行開發。


Patents and technology of dye-sensitized solar cells (DSSC) never-ending changes and improvement progress with each passing day, the performance of the photoelectric conversion with optical transparency, color diversity, substrate deflection and automated production processes have switched to achieve the return on investment in commercial production and scale. This study will view each of the dye-sensitized solar cells has reached commercial production scale and to explore the use of the key sources of technology patents, which contains the dye-sensitized solar cell module, light collecting, cooling, packaging, dyes, electrode structure, electrode material, transparent layer and other patents. As Taiwan industry and academia in the dye-sensitized solar cell R & D technology and patents worth further thinking and breakthroughs in place.
G24 Innovations was established in 2006 in the UK for the first commercial mass-production of DSSC, the DSSC technology team from the Federal Institute of Technology in Lausanne, Switzerland Michael Grätzel. The process uses Roll-to-Roll continuous production of DSSC, and they will continue towards the non-solvent electrolyte, thinner colloidal coating, and thinner titanium foil, new higher moisture barrier encapsulates developed.


目 錄

中文摘要 I
英文摘要 II
誌謝 III
目錄 IV
表目錄 VI
圖目錄 VII
第一章 緒論 01
1.1 研究背景 01
1.2 研究動機 04
1.3 研究範圍 09
第二章 文獻回顧 10
2.1 染料敏化太陽能電池組成 10
2.2 染料敏化太陽能電池商業化 11
第三章 研究方法與設計 16
3.1 染敏太陽能電池技術檢索策略 16
3.2 研究流程 18
第四章 結果與討論 19
4.1 美國DSSC專利統計分析 19
4.1.1 DSSC專利趨勢分析 28
4.1.2 DSSC專利所屬國分析 30
4.1.3 DSSC專利公司別分析 32
4.1.4 DSSC專利發明人分析 35

4.2 美國DSSC專利引證分析 37
4.2.1 專利內部引證次數前10名分析 37
4.2.2 專利總引證次數前10名分析 39
4.3 美國DSSC專利技術分析 40
4.3.1 DSSC專利技術生命週期分析 40
4.3.2 國際專利分類號歷年件數:4階分析 41
4.3.3 國際專利分類號歷年件數:5階分析 42
4.3.4 美國專利分類號歷年件數 44
4.3.5 DSSC專利技術分類 (2010~2012) 45
4.3.5.1 DSSC染料專利 (2010~2012) 49
4.3.5.2 DSSC電解質專利 (2010~2012) 53
4.3.5.3 DSSC電極專利 (2010~2012) 56
4.3.5.4 DSSC薄膜專利 (2010~2012) 59
4.3.5.5 DSSC專利地圖 60

第五章 結論與建議 61
5.1 分析成果 62
5.2 未來DSSC研究方向的建議指南 63

參考文獻 64
附錄
A附錄一:WEBPAT一般檢索 68
B附錄二:染料敏化太陽能電池專利技術分類 (1976 ~ 2012) 73


參考文獻
[1] Global Energy Review in 2010, Enerdata Publication.
[2] http://files.epia.org/files/Global-Market-Outlook-2016.pdf
[3] http://www.nrel.gov/ncpv/images/efficiency_chart.jpg
[4] http://cdnet.stpi.org.tw/techroom/analysis/2008/pat_08_A020.htm
[5] R. R. King, "40% Efficient Metamorphic GaInP/GaInAs/Ge Multijunction Solar Cells," Appl. Phys. Lett. 90, 183516 (2007).
[6] 高效率非晶矽/結晶矽異質接面太陽電池的技術發展; 電子月刊 2012 Vol. 201, p.80-92.
[7] http://us.sanyo.com/Solar/SANYO-HIT-Technology
[8] http://www.circuitstoday.com/thin-film-solar-cell
[9] 2011年經濟部技術處/產業技術白皮書/產業篇/標題貳/綠能科技領域第三章。
[10] http://electrons.wikidot.com/dye-sensitized-solar-cell
[11] http://www.g24i.com/pages,product-specifications,84.html
[12] http://www.konarka.com/index.php/company/our-history/
[13] http://www.nkut.edu.tw/filectrl/專利分析與專利地圖製作實務.pdf
[14] 產業評析- ITIS智網,[www.itis.org.tw/rptDetailFree.screen?rptidno=115510919]。
[15] Industrial Technology Research Institute(TW), Photosensitizer dye and dye sensitized solar cell, U.S. Pat. 8,188,278 (2012).
[16] Academia Sinica(TW), Dye compound and dye-sensitized solar cell, U.S. Pat. 8,183,393 (2012).
[17] National Chiao Tung University(TW) | National Chung Hsing University(TW), Porphyrin-based photosensitizer dyes for dye-sensitized solar cells, U.S. Pat. 8,148,519 (2012).

[18] National Taipei University of Technology (TW), Organic compound and organic dye used in dye-sensitized solar cell, U.S. Pat. 8,106,219 (2012).
[19] Nippon Kayaku Kabushiki Kaisha (JP), Dye-sensitized photoelectric conversion device, U.S. Pat. 8,022,294 (2011).
[20] Nippon Kayaku Kabushiki Kaisha (JP), Dye-sensitized photoelectic conversion devices, U.S. Pat. 8,022,293 (2011).
[21] Samsung SDI Co., Ltd.(KR), Dye for dye-sensitized solar cell and dye-sensitized solar cell including the same, U.S. Pat. 7,989,691 (2011).
[22] CTCI Foundation (TW), Organic dye used in dye-sensitized solar cell, U.S. Pat. 7,985,864 (2011).
[23] Nippon Kayaku Kabushiki Kaisha (JP), Dye-sensitized photoelectric conversion device, U.S. Pat. 7,977,570 (2011).
[24] Konica Minolta Business Technologies, Inc.(JP), Photoelectric conversion element, method of manufacturing the same and solar cell, U.S. Pat. 7,943,848 (2011).
[25] Ecole Polytechnique Federale de Lausanne (EPFL)(CH), 2,2-bipyridine ligand, sensitizing dye and dye sensitized solar cell, U.S. Pat. 7,932,404 (2011).
[26] Samsung SDI Co., Ltd.(KR), Benzoindole-based compound and dye-sensitized solar cell using the same, U.S. Pat. 7,884,218 (2011).
[27] CTCI Foundation (TW), Organic dye used in dye-sensitized solar cell, U.S. Pat. 7,868,189 (2011).
[28] Nippon Kayaku Kabushiki Kaisha (JP), Dye-sensitized photoelectric conversion device, U.S. Pat. 7,851,701 (2010).
[29] Samsung SDI Co., Ltd. (KR), Dye for dye sensitized photovoltaic cell and dye sensitized photovoltaic cell prepared using the same, U.S. Pat. 7,790,980 (2010).
[30] Nippon Kayaku Kabushiki Kaisha (JP), Dye-sensitized photoelectric conversion device, U.S. Pat. 7,728,222 (2010).
[31] National Central University (TW), Photosensitizer dye, U.S. Pat. 7,645,879 (2010).
[32] Industrial Technology Research Institute (TW), Gel electrolyte of dye sensitized solar cell and method for manufacturing the same, U.S. Pat. 8,034,260 (2011).
[33] National Institute of Advanced Industrial Science and Technology(JP), Ionic gel electrolyte, dye-sensitized photoelectric conversion device and solar cell, U.S. Pat. 8,013,241 (2011).
[34] Samsung Electronics Co., Ltd.(KR), Dye-sensitized solar cell using ion-bound oligomer complex and method of manufacturing the same, U.S. Pat. 7,910,824 (2011).
[35] Institute of Nuclear Energy Research (TW), Polymer electrolyte for dye sensitized solar cell, U.S. Pat. 7,910,015 (2011).
[36] Fujikura Ltd. (JP), Electrolyte composition, photoelectric conversion element using the same, and dye-sensitized photovoltaic cell, U.S. Pat. 7,872,191 (2011).
[37] Korea Institute of Science and Technology (KR), Solid state dye-sensitized solar cell employing composite polymer electrolyte, U.S. Pat. 7,820,908 (2010).
[38] Kabushiki Kaisha Toshiba (JP), Dye sensitized solar cell and method for manufacturing dye sensitized solar cell, U.S. Pat. 7,812,252 (2010).
[39] Sungkyunkwan University Foundation For Corporate Collaboration (KR), Dye-sensitized solar cell and method for manufacturing the same, U.S. Pat. 8,143,085 (2012).
[40] Samsung SDI Co., Ltd.(KR) | Samsung Electronics Co., Ltd.(KR), Surface-modified semiconductor electrode, dye-sensitized solar cell, method of manufacturing the solar cell, and polymer composition used for the method, U.S. Pat. 8,138,414 (2012).

[41] Samsung SDI Co., Ltd. (KR), Transparent electrode having thermal stability, method of fabricating the same and dye-sensitized solar cell comprising the same, U.S. Pat. 8,053,664 (2011).
[42] National Institute of Advanced Industrial Science and Technology (JP), Organic compound, semiconductor film electrode employing the organic compound, photoelectric conversion element employing the organic compound, and photoelectrochemical solar cell employing the organic compound, U.S. Pat. 7,973,172 (2011).
[43] Industry Foundation of Chonnam National University(KR), Photoelectrode of dye-sensitized solar cell containing glass powder, U.S. Pat. 7,910,821 (2011).
[44] Korea Institute of Science and Technology (KR), Photo-electric for a dye-sensitized solar cell comprising a meso-porous metal oxide thin film and a process for preparation thereof, U.S. Pat. 7,799,989 (2010).
[45] Showa Denko K.K. (JP), Titanium oxide for dye-sensitized solar cells, U.S. Pat. 7,777,129 (2010).
[46] Teijin Dupont Films Japan Limited (JP), Laminated film for dye-sensitized solar cell and electrode for dye-sensitized solar cell, and process for their production, U.S. Pat. 8,039,735 (2011).
[47] Canon Kabushiki Kaisha (JP), Photovoltaic cell having a coating film provided on a photovoltaic element and manufacturing method thereof, U.S. Pat. 7,687,708 (2010).
[48] http://webpat.tw/WEBPAT/UI/Pages/StaticPage/HowToSearch.aspx


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