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標題: 奈米粒在電濕潤顯示器的研究
A Study of Electrowetting Displays with Nanocrystals
作者: 游國豐
Yu, Kuo-Feng
關鍵字: electrowetting;電濕潤顯示器;nanocrystals;oil;surface tensio;contact angle;light through rate;response time;奈米粒;油墨;表面張力;接觸角;開口率;反應時間
出版社: 精密工程學系所
引用: [1] Toshihisa Tsukada, ”Liquid-crystal displays addressed by thin-film transistors”, CRC Press, Tokyo, 1996. [2] 李英彰,「電濕潤顯示器畫素擋牆高度對反應時間的影響」,國立中興大學精密工程所碩士論文,民國99年7月。 [3] Robert A. Hayes & B. J. Feenstra, “Video-speed electronic paper based on electrowetting”, Nature, Vol. 425, 2003, pp. 383. [4] Daniel Bonn, Jens Eggers, Joseph Indekeu, Jacques Meunier, and Etienne Rolley, “Wetting and spreading”, Reviews of Modern Physics, Vol. 81, 2009, pp. 739. [5] G. Beni and S. Hackwood, “Electro-wetting displays”, Apply Physics Letters, Vol. 38, 1981, pp.207. [6] B. J. Feenstra, R. A. Hayes, R. van Dijk, R. G. H. Boom, M. M. H. Wagemans, I. G. J. Camps, A. Giraldo and B. v.d. Heijden, “Electrowetting-based displays: bringing microfluidics alive on-screen”, MEMS, Istanbul, Turkey, 2006, pp.22. [7] B. Johan Feenstra, “Electrowetting technology aims to improve on the performance of LCDs for mobile applications”, Proceedings of SID, Vol. 22, 2006, pp. 10. [8] Thibault Roques-Carmes, Robert A. Hayes, and Luc J. M. Schlangen, “A physical model describing the electro-optic behavior of switchable optical elements based on electrowetting”, Journal of Applied Physics, Vol.96, 2004, pp. 21. [9] J. Heikenfeld and A. J. Steckl, “Intense switchable fluorescence in light wave coupled electrowetting devices”, Applied Physics Letters, Vol. 86, 2005. [10] Andrew J. Steckl, , Jason Heikenfeld, and Steven C. Allen, “Light wave coupled flat panel displays and solid-state lighting using hybrid inorganic/organic materials”, Journal of Display Technology, Vol. 1, 2005, pp. 157. [11] 郭柏佑,「磷化鐵奈米柱與奈米花的合成及研究」,國立成功大學化學工程學系碩士論文,民國98年7月。 [12] 金重勳,「磁性技術手冊」,竹東:磁性技術協會,民國91年。 [13] 高麒,「微系統與奈米技術」,台南:南台科技大學,民國91年。 [14] Jongnam Park, Kwangjin an, Yosun Hwang, Je-Geun Park, Han-Jinnoh, Jae-Young Kim, Jae-Hoon Park, Nong-Moon Hwang and Taeghwan Hyeon, “Ultra-largr-scale syntheses of monodisperse nanocrytsals”, Nature Materials, Vol. 3, pp. 891, 2004. [15] Jongnam Park, Jin Joo, Soon Gu Kwon, Youngjin Jang, and Taeghwan Hyeon, “Synthesis of monodisperse spherical nanocrystals”, Angewandte Chemie International Edition, Vol. 46, pp. 4630, 2007. [16] Shoushan Yu, JiaqiWan, XuegangYu, KezhengChen, “Preparation and characterization of hydrophobic magnetite microspheres by a simple solvothermal method”, Journal of Physics and Chemistry of Solids, Vol. 71, pp. 412, 2010. [17] Karl F. Böhringer, “Modeling and controlling parallel tasks in droplet-based microfluidic systems”, Transactions on Computer-Aided Design of Integrated Circuits and Systems, Vol. 25, pp. 334, 2006. [18] Monty Liong, Jie Lu, Michael Kovochich, Tian Xia, Stefan G. Ruehm, Andre E. Nel, Fuyuhiko Tamanoi, and Jeffrey I. Zink, “Multifunctional Inorganic Nanoparticles for Imaging, Targeting, and Drug Delivery”, ACS Nano, Vol. 2, pp. 889, 2008. [19] 鄭楠燕,「氧化鐵奈米粒子萃取蛋白質和胜肽應用於基質輔助雷射脫附游離飛行時間質譜法的研究」,朝陽科技大學應用化學系碩士論文,民國95年7月。 [20] 凝相實驗室,材料與科學工程學系,中興大學。

熱分解(thermal decomposition)反應方法,製作立體(steric)分散的黑色奈米粒,以此奈米粒溶入非極性油載液製作黑色油墨。經由噴墨系統噴印在電濕潤顯示器基板的畫素中,封裝成電濕潤顯示器光閥,最後量測電濕潤顯示器光閥之光學特性。

This thesis focused on black ink synthesis for the light valve of electrowetting display. Currently, the typical method for black ink dissolves the black dye into a non-polar oil. However, the resulted black oil induces the serious problem for both pixel assembly process and lifetime.

The thermal decomposition method synthesized the steric dispersed black nanocrystals dissolving into a non-polar oil to form the black ink. This resulted black ink, is printed into the light valve chamber of electrowetting display on the substrate. Finally, the light valve is assembled to form an electrowetting display and measured for the optical characteristics.
其他識別: U0005-2208201115000700
Appears in Collections:精密工程研究所

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