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[1] 雷唯鑫,a-IGZO TFT 在7 英吋液晶顯示器產品的應用探討,元智大學化學工程與材料科學學系(2014). [2] 江國禎,非晶銦鎵鋅氧薄膜臭氧氣體感測器,國立中興大學奈米科學研究所(2014). [3] K. Wasa, and S. Hayakawa, Handbook of sputter deposition technology, Noyespublications (1992). [4] Hideo Hosono, “Ionic amorphous oxide semiconductors: Material design,carrier transport, and device application,” Journal of Non-Crystalline Solids 352 ,(2006),Jun,pp.851~858. [5] Toshio Kamiya, and Hideo Hosono, “Material characteristics and applications of transparent amorphous oxide semiconductors”, NPG Asia Mater., Vol. 2 , (2010),pp.15-22. [6] Hideo Hosono, Masahiro Yasuk, Hiroshi Kawazoea, “Novel oxide amorphous semiconductors: transparent conductingamorphous oxides,” Ournal of Non-Crystalline So Lids 203, (1996),pp.334~344. [7] 行政院國家科學委員會專題研究計畫,以共軛濺鍍法沉積高品質 IGZO 透明薄膜與全穿透、軟性薄膜電晶體之製作與研究,國立國立虎尾科技大學電子工程系(2010). [8] Y. Wang, S. W. Liu, X. W. Sun, J. L. Zhao, G. K. L. Goh, Q. V. Vu and H. Y. Yu, Highly transparent solution processed In-Ga-Zn oxide thin films and thin film transistors, Journal of Sol-Gel Science and Technology, 55 (2010), pp.322-327. [9] Hsiao-Ching Lee and Weng-Sing Hwang, Enhancing the Sensitivity of Oxygen Sensors through the Photocatalytic Effect of SnO2/TiO2 Film, Materials Transactions, 46 (2005) 1942-1949. [10] K. Ihokura, J. Watson, The Stannic Oxide Gas Sensor-Principles and Applications, CRC press, TOKYO. (1994). [11] G. Sberveglieri, Gas sensors: Principle, operation and developments, Kluwer Academic Publishers, Netherlands (1992) 89-186. [12] Noboru Yamazoe, Go Sakai, Kengo Shimanoe, Oxide Semiconductor Gas Sensors, Catalysis Surveys from Asia 7 (2003) 66-75. [13] Inoue T, Fujimori Y, Kato Y, Matsuura, Y, A new and environmentally friendly liquid electrolyte gas sensor, Sensors Proceedings of IEEE, 1 (2004) 138-141. [14] Werner Weppner, Solid-state electrochemical gas sensors, Sensors and Actuators, 12 (1987) 107-119. [15] Chi-Hwan Han, Dae-Woong Hong, Sang-Do Han, Jihye Gwak, Krishan C. Singh, Catalytic combustion type hydrogen gas sensor using TiO2 and UV-LED, Sensors and Actuators B:Chemical, 125 (2007) 224-228. [16] 陳璽宇,直流磁控測鍍法製備非晶態氧化銦鋅錫薄膜之特性研 究,國立中興大學物理學系(2014) , pp.43. [17] 張凱為,高靈敏銦鎵鋅氧薄膜氣體感測器特性研究,國立中興 大學物理學系(2015) , pp.25. [18] 林鴻儒,室溫下二氧化錫薄膜照射UV-LED 光之特性,國立中興大學物理學系(2012). [19] 黃匡祿,非晶銦鎵鋅氧薄膜紫外光感測器,國立中興大學物理學系(2015). [20] 吳彥佑,直流二極濺鍍銦鎵鋅氧化物薄膜電晶體技術開發研究,國立交通大學電機工程學系(2010). [21] 顏同偉,a-IGZO 薄膜電晶體的製作與特性分析,國立交通大學電子工程學系(2011). [22] 莊達人,VLSI 製造技術,高立圖書版社 (1995).
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