E ink公司在軟性顯示器的技術、專利佈局及事業發展策略之研究

"Chien-Le, Lee 李建樂"; 李建樂

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25123

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	吳忠幟(Chung-Chih, Wu)
dc.contributor.author	"Chien-Le, Lee 李建樂"	en
dc.contributor.author	李建樂	zh_TW
dc.date.accessioned	2021-06-08T06:02:54Z	-
dc.date.copyright	2007-07-31
dc.date.issued	2007
dc.date.submitted	2007-07-26
dc.identifier.citation	【1】Arokia Nathan and Babu R. Chalamala, Special Issue on Flexible Electronics Technology, Part 1: Systems and Applications, Proceedings of the IEEE (2005), VOL. 93, No.7, pp. 1235. 【2】Slikkerveer, P. J. (2003), Bending the rules, Information Display 3, 20–24. 【3】Gregory P. Crawford (2005), Flexible Flat Panel Display, pp2, John Wiley & Sons. 【4】Gregory P. 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(1971) Color display devices, U.S. Patent 3,612,758. 【13】Ota, I., Ohnishi, J. and Yoshiyama, M. (1973) Electroohoretic image display (EPD) panel. Proceddings of the IEEE 61, 832-836. 【14】Dalisa, A. L. (1977) Electrophoretic display technology. Transactions on Electron Devices 24(7), 827-834. 【15】David B. Yoffie (2006), E Ink in 2005, Harvard Business School 【16】周延鵬, 虎與狐的智慧力－智慧資源規劃九把金鑰，天下文化，民國95年【17】Karl R. Amundson, Robert W. Zehner, Ara N. Knaian and Benjamin Zion (2006) Methods for driving bistable electro-optic displays and apparatus for use therein, U.S. Patent 7,119,772. 【18】Robert W. Zehner, Russell J. Wilcox and Barrett Comiskey (2006) Machine-readable displays, U.S. Patent 7,119,759. 【19】Thomas H. Whitesides, Michael M. McCreary, Richard J. Paolini, Jr. and Charles Howie Honeyman (2006) Electro-optic displays, U.S. Patent 7,116,466. 【20】Karl R. Amundson, Yu Chen, Kevin L. Denis, Paul S. Drzaic, Peter T. Kazlas and Andrew P. Ritenour (2006) Backplanes for display applications and components for use therein, U.S. Patent 7,116,318. 【21】Richard J. Paolini, Jr., Thomas H. Whitesides, Steven J. O'Neil and Gregg M. Duthaler (2006) Electro-optic displays and processes for the production thereof, U.S. Patent 7,110,164. 【22】Richard M. Webber, Joseph M. Jacobson, Gregg M. Duthaler, Karl R. Amundson, Jonathan D. Albert, Andrew L. Loxley, Mavyn M. Holman, Glen Crossley, and Katharine Geramita (2006) Electro-optic display and lamination adhesive for use therein, U.S. Patent 7,110,163. 【23】Jonathan D. Albert and Barrett Comiskey (2006) Non-spherical cavity electrophoretic displays and methods and materials for making the same, U.S. Patent 7,109,968. 【24】Joseph M. Jacobson (2006) Electronic book with multiple page displays, U.S. Patent 7,106,296. 【25】Richard J. Paolini, Jr., David D. Miller and Barrett Comiskey (2006) Electrophoretic medium and process for the production thereof, U.S. Patent 7,079,305. 【26】Steven J. O'Neil and Gregg M. Duthaler (2006) Process for sealing electro-optic displays, U.S. Patent 7,075,703. 【27】Paul Drzaic and Russell J. Wilcox (2006) Full color reflective display with multichromatic sub-pixels, U.S. Patent 7,075,502. 【28】Jonathan D. Albert, Barrett Comiskey, Joseph M. Jacobson, Libing Zhang, Andrew Loxley, Robert Feeney, Paul Drzaic and Ian Morrison (2006) Retroreflective electrophoretic displays and materials for making the same, U.S. Patent 7,071,913. 【29】Lan Cao, Libing Zhang, Charles H. Honeyman, Kimberly L. Houde, Andrew L. Loxley, David D. Miller, Richard J. Paolini, Jr., Tibyron Quinn, Michael L. Steiner and Thomas H. Whitesides (2006) Capsules, materials for use therein and electrophoretic media and displays containing such capsules, U.S. Patent 7,061,663. 【30】Craig A. Herb and Libing Zhang (2006) Electrophoretic ink composed of particles with field dependent mobilities, U.S. Patent 7,038,655. 【31】Holly G. Gates and Karl R. Amundson (2006) Method for controlling electro-optic display, U.S. Patent 7,034,783. 【32】Allan Scott Baucom, Ara N. Knaian, Heather A. Linden, Timothy J. O'Malley and Russell J. Wilcox (2006) Apparatus for displaying drawings, U.S. Patent 7,030,854. 【33】Paul S. Drzaic, Karl R. Amundson, Gregg M. Duthaler, Peter T. Kazlas and Yu Chen (2006) Minimally-patterned semiconductor devices for display applications, U.S. Patent 7,030,412. 【34】Barrett Comiskey and Russell J. Wilcox (2006) Electronic display with photo-addressing means, U.S. Patent 7,023,420. 【35】Charles H. Honeyman, Eva Chen, Eric Howard Klingenberg and Shafiq N. Fazel (2006) Electro-optic assemblies, and materials for use therein, U.S. Patent 7,012,735. 【36】Robert W. Zehner, Holly G. Gates, Karl R. Amundson, Joanna F. Au, Ara N. Knalan, Jonathan L. Zalesky and Alexi C. Arango (2006) Methods for driving bistable electro-optic displays and apparatus for use therein, U.S. Patent 7,012,600. 【37】Robert W. Zehner, Holly G. Gates, Karl R. Amundson, Joanna F. Au, Ara N. Knalan, Jonathan L. Zalesky and Alexi C. Arango (2006) Electrophoretic particles, and processes for the production thereof, U.S. Patent 7,002,728. 【38】Joseph M. Jacobson, Paul Drzaic, Steven J. O'Neil, Holly G. Gates and Justin Abramson (2006) Method and apparatus for determining properties of an electrophoretic display, U.S. Patent 6,995,550. 【39】Richard J. Paolini, Jr., Robert W. Zehner, Karl R. Amundson, Craig A. Herb, Alexi C. Arango and Andrew L. Loxley (2006) Construction of electrophoretic displays, U.S. Patent 6,987,603. 【40】Richard D. LeCain, Ara N. Knaian, Steven J. O'Neil, Gregg M. Duthaler, Guy M. Danner, Robert W. Zehner, Alberto Goenaga, Benjamin Max Davis, Randolph W. Chan, Jonathan D. Albert, Glen Crossley (2006) Components and methods for use in electro-optic displays, U.S. Patent 6,982,178. 【41】Jonathan D. Albert and Holly G. Gates (2005) Microencapsulated electrophoretic display with integrated driver, U.S. Patent 6,967,640. 【42】Lan Cao, Charles Howie Honeyman, Kimberly L. Houde, Andrew L. Loxley, David D. Miller, Richard J. Paolini, Jr., Tibyron Quinn, Michael L. Steiner, Thomas H. Whitesides and Libing Zhang (2005) Capsules, materials for use therein and electrophoretic media and displays containing such capsules, U.S. Patent 6,958,848. 【43】Justin Abramson, Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler, Holly G. Gates, Charles H. Honeyman, Ara N. Knaian, Ian D. Morrison, Steven J. O'Neil, Richard J. Paolini, Jr., Anthony Edward Pullen, Jianna Wang, Jonathan L. Zalesky, Robert W. Zehner and John Edward Cronin (2005) Electro-optic displays, and methods for driving same, U.S. Patent 6,950,220. 【44】Libing Zhang, Mavyn M. Holman, Russell J. Wilcox, Alberto Goenaga and Michael L. Steiner (2005) Flexible electro-optic displays, U.S. Patent 6,922,276. 【45】Ian D. Morrison, Rachael A. Forgit, Peter J. Valianatos, Craig A. Herb and Guy M. Danner (2005) Electro-optic displays and optical systems for addressing such displays, U.S. Patent 6,900,851. 【46】Anthony Edward Pullen, Ian D. Morrison and Emily J. Pratt (2005) Electrophoretic displays containing magnetic particles, U.S. Patent 6,870,661. 【47】Richard J. Paolini Jr., David D. Miller and Barrett Comiskey (2005) Electrophoretic medium and process for the production thereof, U.S. Patent 6,866,760. 【48】Gregg Duthaler and Anthony Pullen (2005) Electrophoretic electronic displays with low-index films, U.S. Patent 6,865,010. 【49】Paul Drzaic and Russell J. Wilcox (2005) Full color reflective display with multichromatic sub-pixels, U.S. Patent 6,864,875. 【50】Paul S. Drzaic and Jianna Wang (2005) Reactive formation of dielectric layers and protection of organic layers in organic semiconductor device fabrication, U.S. Patent 6,842,657. 【51】Karl R. Amundson (2005) Illumination system for nonemissive electronic displays, U.S. Patent 6,842,279. 【52】Jonathan D. Albert and Barrett Comiskey (2005) Rear electrode structures for displays, U.S. Patent 6,842,167. 【53】Jonathan D. Albert, Glen Crossley, Katharine Geramita, Karl R. Amundson, Michael L. Steiner, Paul Drzaic, Andrew Loxley, Barrett Comiskey and Peter J. Valianatos (2005) Encapsulated electrophoretic displays having a monolayer of capsules and materials and methods for making the same, U.S. Patent 6,839,158. 【54】Mavyn M. Holman, Justin Abramson, Glen Crossley, Katharine Geramita, Robert W. Zehner, Karl R. Amundson, Libing Zhang and Richard M. Webber (2004) Electro-optic display and lamination adhesive, U.S. Patent 6,831,769. 【55】Alberto Goenaga, Karl R. Amundson, Michael L. Steiner and Libing Zhang (2004) Methods for addressing electro-optic materials, U.S. Patent 6,825,970. 【56】Jonathan D. Albert, Barrett Comiskey and Russell J. Wilcox (2004) Adhesive backed displays, U.S. Patent 6,825,829. 【57】Kevin L. Denis, Yu Chen, Paul S. Drzaic, Joseph M. Jacobson,and Peter T. Kazlas (2004), Process for fabricating thin film transistors , U.S. Patent 6,825,068. 【58】Charles H. Honeyman, Elizabeth A. Moran, Libing Zhang, Anthony Edward Pullen, Emily J. Pratt, Kimberly L. Houde, Matthew A. King, Craig A. Herb and Richard J. Paolini, Jr (2004), Electrophoretic particles and processes for the production thereof , U.S. Patent 6,822,782. 【59】Karl R. Amundson, Guy M. Danner, Gregg M. Duthaler and Russell J. Wilcox (2004), Light modulation by frustration of total internal reflection, U.S. Patent 6,819,471. 【60】Jonathan D. Albert (2004), Bistable electro-optic display, and method for addressing same, U.S. Patent 6,816,147. 【61】Robert W. Zehner, Gregg M. Duthaler, Richard J. Paolini, Jr. and Ian Morrison (2004), Electrophoretic displays in portable devices and systems for addressing such displays, U.S. Patent 6,753,999. 【62】Karl R. Amundson, Gregg Duthaler and Paul S. Drzaic (2004), Transistor design for use in the construction of an electronically driven display, U.S. Patent 6,750,473. 【63】Barrett Comiskey, Jonathan D. Albert, Joseph M. Jacobson, Russell J. Wilcox and Paul Drzaic (2004), Microencapsulated electrophoretic electrostatically addressed media for drawing device applications, U.S. Patent 6,738,050. 【63】Jonathan D. Albert, Barrett Comiskey, Joseph M. Jacobson, Libing Zhang, Andrew Loxley, Robert Feeney, Paul Drzaic and Ian Morrison (2004), Encapsulated electrophoretic displays and methods and materials for making the same, U.S. Patent 6,727,881. 【64】Barrett Comiskey, Ian Morrison, Paul Drzaic, Peter T. Kazlas, Russell Wilcox and Robert Feeney (2004), Protective electrodes for electrophoretic displays, U.S. Patent 6,724,519. 【65】Joseph M. Jacobson, Anthony E. Pullen, Thomas H. Whitesides, Paul S. Drzaic, Ian D. Morrison, Jianna Wang and Caprice L. Gray (2004), Electrophoretic displays using nanoparticles, U.S. Patent 6,721,083. 【66】Jonathan D. Albert and Barrett Comiskey (2004), Electrostatically -addressable electrophoretic display, U.S. Patent 6,710,540. 【67】Holly G. Gates, Ian Morrison, Owen W. Ozier, Benjamin M. Davis and Jonathan D. Albert (2004), Electro-optic display overlays and systems for addressing such displays, U.S. Patent 6,704,133. 【68】Craig A. Herb, Ian D. Morrison and Andrew L. Loxley (2004), Threshold addressing of electrophoretic displays, U.S. Patent 6,693,620. 【69】Peter T. Kazlas, Michael G. Hack, Paul S. Drzaic, Guy M. Danner and Karl R. Amundson (2004), Fabrication of electronic circuit elements using unpatterned semiconductor layers, U.S. Patent 6,683,333. 【70】Joseph M. Jacobson (2004), Methods of manufacturing electronically addressable displays, U.S. Patent 6,680,725. 【71】Jonathan D. 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Drzaic (2003), Electrophoretic displays using nanoparticles, U.S. Patent 6,538,801. 【79】Barrett Comiskey and Paul Drzaic (2003), Printable electrode structures for displays, U.S. Patent 6,535,197. 【80】Holly G Gates, Barrett Comiskey, Peter T. Kazlas, Jonathan D. Albert, Paul S Drzaic (2003), Methods for addressing electrophoretic displays, U.S. Patent 6,535,997. 【81】Gregg Duthaler, Karl R. Amundson, Paul Drzaic, Peter Kazlas and Jianna Wang (2003), Preferred methods for producing electrical circuit elements used to control an electronic display, U.S. Patent 6,521,489. 【82】Paul Drzaic (2003), Electronic displays using organic-based field effect transistors, U.S. Patent 6,518,949. 【83】Jonathan D. Albert, Barrett Comiskey, Joseph M. Jacobson, Libing Zhang, Andrew Loxley, Robert Feeney, Paul Drzaic and Ian Morrison (2003), Suspended particle displays and materials for making the same, U.S. Patent 6,515,649. 【84】Joseph M. Jacobson and Paul Drzaic (2003), Method and apparatus for sensing the state of an electrophoretic display, U.S. Patent 6,512,354. 【85】Gregg M. Duthaler, Peter T. Kazlas and Paul Drzaic (2003), Method for printing of transistor arrays on plastic substrates, U.S. Patent 6,506,438. 【86】Holly Gates, Barrett Comiskey, Peter T. Kazlas, Jonathan D. Albert and Paul S. Drzaic (2003), Addressing methods for displays having zero time-average field, U.S. Patent 6,504,524. 【87】Karl Amundson, Paul S. Drzaic, Jianna Wang, Gregg Duthaler and Peter Kazlas (2002), Method for forming a patterned semiconductor film, U.S. Patent 6,498,114. 【88】Barrett Comiskey, Jonathan D. Albert, Joseph M. Jacobson, Russell J. Wilcox and Paul Drzaic (2002), Microencapsulated electrophoretic electrostatically-addressed media for drawing device applications, U.S. Patent 6,473,072. 【89】Barrett Comiskey and Joseph M. Jacobson (2002), Displays combining active and non-active inks, U.S. Patent 6,459,418. 【90】Joseph M. 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25123	-
dc.description.abstract	依據PROCEEDINGS OF THE IEEE對於軟性電子（Flexible Electronics）的定義，軟性電子是一種建置在薄塑膠片或金屬薄片之軟性或可彎曲基板上的元件與材料技術。相較於傳統的電子元件，其具備”可彎曲性”、“輕”、“薄”及”省電”等特性，且具有整合優勢，並可用以製造不同形狀的電子產品，相當具有發展潛力。在軟電領域中，美國E ink Corpoartion在技術、產業聯盟程度及產品化程度上皆居於領先的地位。因此，本研究探討E ink公司的軟性顯示器技術、專利佈局概況及事業發展的策略，藉以瞭解競爭力的來源與強弱之所在，以供我國未來軟電產業發展規劃參考。	zh_TW
dc.description.abstract	According the Proceedings of the IEEE, Flexible electronics encompasses a rather diverse range of device and materials technologies that are built on flexible and conformal substrates. Flexible electronics possesses characteristics such as 'pliable', 'light weight' and 'thin'. It combines the advantages for integrating optics, electricity and senor. And it can be used to make electronic products of different forms, thus having a high potential. In the field of flexible displays, E ink Corporation has the leading status on technology, intellectual properties and commercialization. This research is mainly to investigate E ink’s business development strategy, by studying its paper-like display technologies, patent planning and industry alliance, aiming at understanding origins of its competitiveness, strength and weakness. This case study may be a good reference for development of flexible electronics in Taiwan.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T06:02:54Z (GMT). No. of bitstreams: 1 ntu-96-J94921009-1.pdf: 2792480 bytes, checksum: 23015f6e1c86cf27ced9bc2f760b7d1e (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	口試委員會審定書……………………………………………… i 誌謝……………………………………………………………… ii 中文摘要………………………………………………………… iv 英文摘要………………………………………………………… v 第一章軟性電子及軟性顯示器簡介………………………… 1 1.1 軟性電子及軟性顯示器的定義………………………… 1 1.2 軟性顯示器的發展歷史與遭遇問題…………………… 5 1.3 軟性顯示器的發展現況與展望………………………… 6 1.4 論文結構………………………………………………… 9 第二章類紙化顯示器的相關技術………………………… 10 2.1 類紙化軟性顯示器的定義及相關技術………………… 10 2.2 雙穩態反射式顯示器：膽固醇式液晶技術簡介及發展現況 11 2.3 雙穩態反射式顯示器：電泳式（粒子式）技術簡介及發展現況 15 第三章 E ink公司的專利概況…………………………………… 26 3.1 E ink公司簡介……………………………………………… 26 3.2 E ink公司專利概況………………………………… 28 第四章 E ink公司之技術及專利佈局………………………… 33 4.1 E ink公司類紙化軟性顯示器製作流程…………………… 33 4.2 E ink公司技術與專利佈局……………………………… 36 4.3 E ink公司類紙化軟性顯示器之光學膜製作技術………… 72 4.3.1 光學膜製作之Electronic Ink Manufacturing技術… 72 4.3.2 光學膜製作之Front Plane Lamination(FPL) Manufacturing技術… 80 第五章 E ink公司在類紙化軟性顯示器的發展佈局………… 90 5.1 以E ink公司為核心的類紙化軟性顯示器產業鏈、供應鏈及價值鏈 90 5.2 E ink公司在軟性顯示器產業的發展策略……………… 92 第六章結論……………………………………………………………… 94 6.1 E ink公司發展歷程對於我國發展軟電產業的啟示…… 94 6.1.1 一條鞭技術發展的問題（時程問題）………………… 95 6.1.2 產業發展重心的問題（產值與毛利問題）……………… 95 6.2 E ink公司發展歷程對於我國發展軟電專利的啟示…… 96 6.2.1 技術鏈上的專利佈局不同於產業鏈上的專利佈局…… 97 6.2.2 產業鏈上的專利佈局不同於價值鏈上的專利佈局……… 97 參考文獻…………………………………………………………… 99
dc.language.iso	zh-TW
dc.subject	電泳技術	zh_TW
dc.subject	軟性電子	zh_TW
dc.subject	軟性顯示器	zh_TW
dc.subject	類紙化軟性顯示器	zh_TW
dc.subject	E ink公司v專利佈局	zh_TW
dc.subject	事業發展	zh_TW
dc.subject	E ink Corporation	en
dc.subject	flexible electronics	en
dc.subject	flexible display	en
dc.subject	paper-like display	en
dc.subject	electrophoretic technology	en
dc.subject	business development strategy	en
dc.subject	patent planning	en
dc.title	E ink公司在軟性顯示器的技術、專利佈局及事業發展策略之研究	zh_TW
dc.title	The Study of E ink of Flexible Display Technology, Patent Planning and Business Development Strategy	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	葉永輝,蘇國棟
dc.subject.keyword	軟性電子,軟性顯示器,類紙化軟性顯示器,電泳技術,E ink公司v專利佈局,事業發展,	zh_TW
dc.subject.keyword	flexible electronics,flexible display,paper-like display,electrophoretic technology,E ink Corporation,patent planning,business development strategy,	en
dc.relation.page	107
dc.rights.note	未授權
dc.date.accepted	2007-07-26
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	電機工程學研究所	zh_TW
顯示於系所單位：	電機工程學系

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