大同大學 教職員資料 (Information of TTU Faculty & Staff)
基本資料 (Basic Info)
姓名:施文欽 (Wen-Ching, Shih) 教授
單位:電機工程學系  
電話:  
手機:  
email:wcshih@ttu.edu.tw  
網址:  
學歷 (Education)
大同工學院 電機工程系 博士 (1992/09 ~ 1997/01)
大同工學院 電機工程系 碩士 (1989/09 ~ 1991/06)
大同工學院 電機工程系 學士 (1985/10 ~ 1989/06)
經歷 (Experience)
大同大學 電機工程研究所 教授 (2014/8 ~ 今)
大同大學 光電工程研究所 教授 (2011/10 ~ 今)
大同大學 材料工程學系 教授 (2017/8 ~ 2020/7)
東吳大學 物理系 兼任教授 (2014/3 ~ 2019/6)
大同大學 物理教學組 主任 (2012/8 ~ 2014/8)
大同大學 光電工程研究所 所長 (2012/3 ~ 2014/7)
大同大學 光電工程研究所 導師 (2011/08 ~ 2012/7)
經濟部 智慧財產局 兼任專利審查委員 (2011/3/15 ~ 2011/12/31)
大同大學 光電工程研究所 副教授 (2008/09 ~ 2011/09)
大同大學 學程教育中心 主任 (2003/10 ~ 2009/7)
大同大學 光電工程研究所 助理教授 (2000/08 ~ 2008/8)
大同大學 光電工程研究所 導師 (2007/08/01 ~ 2008/07/31)
大同大學 光電工程研究所 導師 (2004/08/01 ~ 2005/07/31)
清雲技術學院 電子工程系 助理教授兼註冊組主任 (1999/08 ~ 2000/07)
專長 (Specialty)
柰米技術 Nanotechnology
半導體製造技術 Semiconductor Manufacturing Technolo
薄膜技術 Thin Film Technology
真空技術 Vacuum Technology
開授課程 (Course)
光電實驗 Experiments of Electro-optics
積體電路技術 Integrated Circuit Technology
柰米技術與應用 Nanotechnology and Its Applications
半導體製造技術 Semiconductor Manufacturing Technology
薄膜技術 Thin Film Technology
獎勵 (Award)
108年度補助大專校院獎勵特殊優秀人才措施 (科技部 2019-10-01)
106年度補助大專校院獎勵特殊優秀人才措施 (科技部 2017-10-03)
105年度補助大專校院獎勵特殊優秀人才措施 (科技部 2016-10-25)
104年度補助大專校院獎勵特殊優秀人才措施 (科技部 2015-09-09)
103年度補助大專校院獎勵特殊優秀人才措施 (科技部 2014-10-30)
102年度補助大專校院獎勵特殊優秀人才措施 (國科會 2013-09-05)
101年度補助大專校院獎勵特殊優秀人才措施 (國科會 2012-09-01)
100年度補助大專校院獎勵特殊優秀人才措施 (國科會 2011-08-17)
99年度補助大專校院獎勵特殊優秀人才措施 (國科會 2011-03-16)
2009年華映產學合作計畫研究---優等獎 (中華映管公司 2009-07-10)
95學年度基礎案成果發表會---成果海報評選為優選 (大同大學 2007-09-27)
95學年度論文獎佳作 (大同大學 2006-11-13)
92學年度教學優良教師 (大同大學 2003-09-26)
91學年度優良導師 (大同大學 2002-09-26)
國科會八十八學年度研究獎勵案(獎勵類別─甲種) (國科會 1999-05-26)
教育部八十年度青年研究發明獎技術發明類研究生組佳作 (教育部 1991-05-26)
服務 (Service)
1. 教務會議代表 (2021-08-01 ~ 今)
2. 採購委員會代表 (2021-08-01 ~ 今)
3. 101學年度銘傳電子校外諮詢委員會委員 (2012-08-01 ~ 今)
4. 校務會議代表 (2020-08-01 ~ 2021-07-31)
5. 電資學院院教評會委員 (2015-08-01 ~ 2019-07-31)
6. 電機系系教評會委員 (2015-08-01 ~ 2019-07-31)
7. 物理組主任 (2012-08-01 ~ 2014-08-31)
8. 光電所所長 (2012-03-01 ~ 2014-07-31)
9. 光電所碩士班導師 (2011-08-01 ~ 2012-07-31)
10. 光電所招生委員會主委 (2010-08-01 ~ 2012-07-31)
11. 光電所教評會委員 (2009-02-01 ~ 2014-07-31)
12. 光電所IEET認證委員會委員 (2008-08-01 ~ 2014-07-31)
13. 圖書館委員 (2008-08-01 ~ 2011-07-31)
14. 光電所碩士班導師 (2007-08-01 ~ 2008-07-31)
15. 光電所招生委員會主委 (2006-08-01 ~ 2007-07-31)
16. 德霖技術學院電子科提升系科教學品質專案計畫校外課程規劃委員 (2004-05-01 ~ 2004-12-31)
17. 學程中心主任 (2003-10-01 ~ 2009-07-31)
專 利 (Patent)
1. 施文欽 (本校教師) 黃瑞成 (本校學生), "高頻表面聲波元件," US 7615910 B1
2. 施文欽 (本校教師) 王惠民 (本校學生), "高頻表面聲波元件及其基板," US 7741752 B2
3. 鄭健民(本校學生)、施文欽(本校教師)、蔡明宏(本校學生)、羅吉宗(大同公司), "奈米碳管及奈米碳顆粒製造方法," US 7641884 B2
4. 施文欽(本校教師)、黃瑞成(學生), "高頻表面聲波元件," 中華民國發明專利第I 349434號
5. 鄭健民(本校學生)、施文欽(本校教師)、蔡明宏(本校學生)、羅吉宗(大同公司), "奈米碳管製造方法及碳顆粒形成方法," 中華民國發明專利第I 346146號
6. 鄭健民(本校學生)、羅吉宗(大同公司)、施文欽(本校教師)、蔡維隆(本校學生), "複合式場發射源," US 8,080,929 B2
7. 鄭健民(本校學生)、羅吉宗(大同公司)、施文欽(本校教師)、蔡維隆(本校學生), "複合式場發射源及其製作方法," 中華民國發明專利第I 363367號
8. 施文欽 (本校教師) 王惠民 (本校學生), "高頻表面聲波組件及其基板 ," ZL 2008 1 0146398.4
9. 施文欽 (本校教師) 王惠民 (本校學生), "高頻表面聲波元件及其基板 ," 中華民國發明專利第I 381060號
10. 施文欽(本校教師)、黃瑞成(學生), "高頻表面聲波元件," ZL 2008 1 0133907.X
11. 施文欽 (本校教師);鄭健民 (學生);陳昱豪 (學生);江美昭(外校人士);李懷安(外校人士), "電泳沉積裝置及電泳沉積方法," 中華民國發明專利第I412629號
12. 鄭健民 (本校學生);蔡維隆(本校學生);鄒紀威(本校學生);施文欽(本校教師);羅吉宗(外校人士), "電子場發射源及其製作方法," 中華民國發明專利第I413148號
13. 鄭健民(本校學生)、羅吉宗(大同公司)、施文欽(本校教師)、蔡維隆(本校學生), "複合式場發射源及其製作方法," US 9,005,407 B2
學術研究計畫(研4)
1. 開發大面積且低溫成長鑽石薄膜之技術與應用,2023/11/1 ~ 2024/10/31
2. 臺波(PL)雙邊協議型擴充加值(add-on) 國際合作研究計畫-具增強的光催化性能二硫化鉬的新型雜化材料應用於產氫之研究(3/3),2023/1/1 ~ 2023/12/31
3. 開發以天線陣列微波電漿反應器成長鑽石薄膜之技術與應用,2022/6/1 ~ 2023/5/31
4. 臺波(PL)雙邊協議型擴充加值(add-on) 國際合作研究計畫-具增強的光催化性能二硫化鉬的新型雜化材料應用於產氫之研究(2/3),2022/1/1 ~ 2022/12/31
5. 臺波(PL)雙邊協議型擴充加值(add-on) 國際合作研究計畫-具增強的光催化性能二硫化鉬的新型雜化材料應用於產氫之研究(1/3),2021/1/1 ~ 2021/12/31
6. 透過線性天線微波電漿化學氣相沉積系統低溫且大面積成長奈米晶鑽石,2020/8/1 ~ 2021/7/31
7. 開發電子場發射陰極材料應用於微型X光管之研究執行期限延至109/9/30 ,2019/8/1 ~ 2020/7/31
8. 開發電子場發射陰極材料應用於微型X光管之研究,2019/8/1 ~ 2020/7/31
9. 第四屆海峽兩岸鑽石及其功能器件研討會,2019/8/1 ~ 2019/8/31
10. 製備鑽石薄膜作為電子場發射之應用,2019/8/1 ~ 2020/7/31
11. 開發大面積鑽石鍍膜系統應用於提升切削刀具之性能,2018/11/1 ~ 2019/10/31
12. 透過電漿後處理製程增強超奈米晶鑽石薄膜之電子場發射特性,2018/8/1 ~ 2019/7/31
13. 透過電漿後處理製程增強超奈米晶鑽石薄膜之電子場發射特性,2018/8/1 ~ 2019/7/31
14. 結合超奈米晶鑽石薄膜與奈米碳片強化場發射X光源之特性研究,2017/8/1 ~ 2018/7/31
15. 結合超奈米晶鑽石薄膜與奈米碳片強化場發射X光源之特性研究,2017/8/1 ~ 2018/10/31
16. 碳奈米線圈的合成與在三極式場發射照明之應用,2015/8/1 ~ 2016/7/31
17. 場發射陣列製作與三極式平面光源之應用,2014/8/1 ~ 2015/7/31
18. 奈米碳片之備製與場發射性質研究國科會 2012/8/1 ~ 2013/7/31
19. 在具有氧化鋁緩衝層之玻璃基板上成長氧化鋅壓電薄膜以作為高頻表面聲波元件應用國科會 2010/8/1 ~ 2011/7/31
20. 藉由沈積高聲速材料來改善壓電體表面特性及其在表面聲波元件之應用國科會 2009/8/1 ~ 2010/7/31
21. 氧化鋅薄膜奈米鑽石高頻表面聲波元件之研製國科會 2006/8/1 ~ 2007/7/31
22. 以化學溶液旋鍍法於不同緩衝層材料上製備LiNbO3壓電膜體及其表面聲波特性之研究國科會 共同主持人 ,2005/8/1 ~ 2006/7/31
23. 提升私校研發能量專案計畫─先進生物感測系統之研發國科會 共同主持人 ,2002/8/1 ~ 2003/7/31
24. 利用高週波磁控濺鍍法在具氧化鎂/砷化鎵基板上成長鈦酸鋇薄膜及其在光波導與表面聲波方面的應用國科會 2001/8/1 ~ 2002/7/31
25. 利用高週波磁控濺鍍法在SiO2/Si基板上成長氧化鉭薄膜及其在光波導與表面聲波方面的應用國科會 1999/12/1 ~ 2000/5/31
產學合作計畫(研9)
1. 開發大面積且低溫成長鑽石薄膜之技術與應用,2023/11/1 ~ 2024/10/31
2. 透過濺鍍法成長氧化銦錫透明導電薄膜及其光電應用,2023/1/1 ~ 2023/12/31
3. 開發以天線陣列微波電漿反應器成長鑽石薄膜之技術與應用,2022/6/1 ~ 2023/5/31
4. 透過多層抗反射鍍層提高矽晶太陽能電池效率,2022/1/1 ~ 2022/12/31
5. 在具有不同中介層之不鏽鋼基板上成長奈米碳管作為電子場發射之應用,2021/1/1 ~ 2021/12/31
6. 開發以環狀天線電漿反應器成長鑽石薄膜之技術與應用,2020/6/1 ~ 2021/5/31
7. 開發以環狀天線電漿反應器成長鑽石薄膜之技術與應用,2020/6/1 ~ 2021/7/31
8. 提升鑽石薄膜之成長及性能診斷,2019/6/1 ~ 2019/11/30
9. "開發大面積鑽石鍍膜系統應用於提升切削刀具之性能 ",2018/11/1 ~ 2019/10/30
10. 開發大面積鑽石鍍膜系統應用於提升切削刀具之性能,2018/11/1 ~ 2019/10/31
11. 沉積鑽石薄膜以提升碳化鎢刀具之切削性能診斷,2018/5/1 ~ 2018/10/31
12. 透過奈米晶鑽石薄膜改善奈米碳管之電子場發射特性,2018/1/1 ~ 2018/11/30
13. 提升微波電漿沈積系統成長鑽石薄膜之性能診斷,2017/5/1 ~ 2017/10/31
14. 利用射頻磁控濺鍍法沉積奈米碳片於玻璃基板上並以熱處理改善其電子場發射特性,2017/1/1 ~ 2017/11/30
15. 提升場發射X光源陰極材料之性能診斷,2016/5/1 ~ 2016/10/31
16. 三極式場發射背光源技術開發,2016/4/1 ~ 2016/4/1
17. 利用射頻磁控濺鍍法在具氧化鋁緩衝層之矽晶片上成長氮化鋁薄膜及以作為高頻表面聲波元件之應用,2016/1/1 ~ 2016/11/30
18. 提升微型生醫製鍍系統功能之診斷,2015/5/1 ~ 2015/10/31
19. 藉由射頻磁控濺鍍法沉積氧化鋅鋁透明導電膜於玻璃基板上並以真空退火方式改善其光電特性,2015/1/1 ~ 2015/12/31
20. 藉由射頻磁控濺鍍法沉積ITO和AZO雙層透明導電膜於可撓式塑膠基板上之研究,2014/1/1 ~ 2014/12/31
21. 藉由射頻磁控濺鍍法沉積ITO透明導電薄膜於玻璃基板上之研究,2012/10/1 ~ 2013/12/31
22. 品質透明導電膜沈積技術之開發,2011/11/1 ~ 2012/10/31
23. 藉由射頻磁控濺鍍法沉積氧化銦錫透明導電膜於可撓式基板上之研究,2011/9/1 ~ 2012/7/15
24. 利用射頻磁控濺鍍法在具氧化鋁緩衝層之玻璃基板上沉積氧化鋅薄膜以作為高頻表面聲波元件之應用,2010/9/1 ~ 2011/7/15
25. 利用電泳沉積法製作4吋場發射元件,2010/2/1 ~ 2012/7/31
26. 製作透明導電膜以作為太陽能電池之應用,2009/9/1 ~ 2010/7/15
27. 光纖式奈米薄膜製程線上即時監控檢測技術計畫,2009/6/10 ~ 2009/12/10
28. 表面聲波生物感測器之研發,2008/9/1 ~ 2009/7/31
29. 薄膜型表面聲波量測系統之建立及其在生物感測之應用,2007/9/1 ~ 2007/9/1
30. 高穩定性奈米碳管應用於液晶顯示器背光源之開發,2007/8/1 ~ 2008/7/31
31. 表面聲波震盪電路為基礎之生物感測系統,2006/9/1 ~ 2007/7/15
32. 雙延遲線表面聲波量測系統之建立及其在生物感測之應用,2005/9/1 ~ 2006/7/31
33. 表面修飾奈米碳管之場效特性研究,2005/9/1 ~ 2006/8/31
34. 表面聲波感測器量測系統的建立及其在生物感測之運用,2004/9/1 ~ 2005/7/15
35. 表面聲波感應器測量系統的建立,2003/9/1 ~ 2004/7/31
36. 提昇大學基礎教育計畫-液晶與液晶顯示技術基礎教育計畫,2001/9/1 ~ 2005/8/31
研究計畫-共同/協同主持
1. 高純度碳化矽粉體微波燒結之研究與開發(II),2022/11/1 ~ 2023/10/31
2. 高純度碳化矽粉體微波燒結之研究與開發(II),2022/11/1 ~ 2023/10/31
3. 高純度碳化矽粉體微波燒結之研究與開發,2021/11/1 ~ 2022/10/31
4. 高純度碳化矽粉體微波燒結之研究與開發,2021/11/1 ~ 2022/10/31
期刊論文 (Journal Paper)
1. Awadesh Kumar Mallik, Fernando Lloret, Marina Gutierrez, Rozita Rouzbahani, Paulius Pobedinskas, Wen-Ching Shih, Ken Haenen(2023). Deposition and Characterisation of a Diamond/Ti/Diamond Multilayer Structure. Coatings, 13(11), 1914-1~14. SCIE(SCI)
2. Wen-Ching Shih, Yi-Fan Huang, Mu-Shiang Wu(2017). Improving the properties of zinc oxide thin-film surface acoustic wave device on glass substrate by introducing double alumina layers. Japanese Journal of Applied Physics, 56. SCIE(SCI)
3. Wen-Ching Shih, Chih-Hsuan Lu, Mu-Shiang Wu(2015). Deposition of Alumina Films on Interdigital Transducer/ZnO/Glass Substrates by Electron Beam Evaporation to Improve the Characteristics of Surface Acoustic Wave Devices. Ferroelectrics, 474(1). SCIE(SCI)
4. Kun-Yi Lee, Wen-Ching Shih, Chia-Chi Chang, Mu-Shiang Wu(2014). Improvement of surface acoustic wave characteristics of ZnO film/interdigital transducer/glass substrate using alumina film interlayer. Japanese Journal of Applied Physics, 53(9). SCIE(SCI)
5. Wen-Ching Shih, Zhi-Xiong Zoh(2014). Fabrication of AlN Films by RF Magnetron Sputtering for Surface Acoustic Wave Applications. Ferroelectrics, 459(1). SCIE(SCI)
6. Yu-Chia Tsao, Woo-Hu Tsai, Wen-Ching Shih, Mu-Shiang Wu(2013). An In-situ Real-Time Optical Fiber Sensor Based on Surface Plasmon Resonance for Monitoring the Growth of TiO2 Thin Films. Sensors, 13(7). SCIE(SCI)
7. Li-Fong Chen, Yung-Po Wang, Te-Wei Chiu, Wen-Ching Shih, Mu-Shiang Wu(2013). Fabrication of transparent CuCrO2:Mg/ZnO p-n junctions prepared by magnetron sputtering on an ITO glass substrate. Japanese Journal of Applied Physics, 52. SCIE(SCI)
8. Huang-Chin Chen, I-Nan Lin, Shiu-Cheng Lou, Chulung Chen, Ray-Her Tang, Wen-Ching Shih, Shen-Chuan Lo, Li-Jen Lin(2013). Microplasma enhancement via the formation of a graphite-like phase on diamond cathodes. Journal of Vacuum Science and Technology B, 31(2). SCIE(SCI)
9. Kalpataru Panda, B. Sundaravel, B. K. Panigrahi, H.-C. Chen, P.-C. Huang, Wen-Ching Shih, S.-C. Lo, L. -J. Lin(2013). The induction of nanographitic phase on Fe coated diamond films for the enhancement in electron field emission properties. JOURNAL OF APPLIED PHYSICS, 11(3). SCIE(SCI)
10. TUAN-ANH BUI, MIN-CHUN PAN, CHIEN-CHEH LEE, Wen-Ching Shih(2012). Effect of Fabrication Parameters on the Characteristics of Fresnel Lens and Piezoelectric Transducers. Ferroelectrics, 437, 70-80. SCIE(SCI)
11. Hsuan-Chen Chang, Hsin-Yueh Chang, Wei-Jhih Su, Kuei-Yi Lee, Wen-Ching Shih(2012). Preparation and electrochemical characterization of NiO nanostructure-carbon nanowall composites grown on carbon cloth. Applied Surface Science, 258. SCIE(SCI)
12. Huang-Chin Chen, Shen-Chuan Lo, Li-Jiau Lin, Pin-Chang Huang, Wen-Ching Shih, I-Nan Lin, Chi-Young Lee(2012). The 3D-tomography of the nano-clusters formed by Fe-coating and annealing of diamond films for enhancing their surface electron field emitters. AIP ADVANCES, 2(3). SCIE(SCI)
13. Wen-Ching Shih, Pin-Chang Huang, Huang-Chin Chen, I-Nan Lin(2012). Growth of Microcrystalline Diamond Films on Textured Si Substrates to Enhance the Electron Field Emission Properties. Japanese Journal of Applied Physics, 51(8). SCIE(SCI)
14. Kuang-Yau Teng, Wen-Ching Shih, Pin-Chang Huang, Huang-Chin Chen, Chen-Yau Tang, I-Nan Lin(2012). Modification of ultrananocrystalline diamond film microstructure via Fe-coating and annealing for enhancement of electron field emission properties. Journal of Applied Physics, 112. SCIE(SCI)
15. Kalpataru Panda, B. Sundaravel, B. K. Panigrahi, Pin-Chang Huang, Wen-Ching Shih, Huang-Chin Chen, I-Nan Lin(2012). Direct observation and mechanism of increased emission sites in Fe-coated microcrystalline diamond films. Journal of Applied Physics, 111. SCIE(SCI)
16. Wen-Ching Shih, Tzyy-Long Wan, Yan-Kai Pen(2012). Enhancement of characteristics of ZnO thin film surface acoustic wave device on glass substrate by introducing an alumina film interlayer. Applied Surface Science, 258. SCIE(SCI)
17. Kuang-Yau Teng, Pin-Chang Huang, Wen-Ching Shih, I-Nan Lin(2012). The induction of a graphite-like phase by Fe-coating/post-annealing process to improve the electron field emission properties of ultrananocrystalline diamond films. Diamond and Related Materials, 24. SCIE(SCI)
18. Jeff Tsung-Hui Tsai, Wen-Ching Shih, Jian-Min Jeng, Yen-Tang Chiao, Chin-Tze Hwang, Jyi-Tsong Lo(2012). Fabrication of vertical graphitic nanopartitions for anti-reflection function of silicon solar cells. Nanoscience Methods, 1. SCIE(SCI)
19. Min-Chun Pan, Tzon-Han Wu, Tuan-Anh Bui, Wen-Ching Shih(2012). Fabrication of highly c-axis textured ZnO thin films piezoelectric transducers by RF sputtering. Journal of Materials Science: Materials in Electronics, 23(2). SCIE(SCI)
20. Wen-Ching Shih, Jian-Min Jeng, Chin-Tze Huang, Jyi-Tsong Lo(2011). Enhancing electron field emission of carbon nanoflakes by hydrogen post-annealing process. Journal of Materials Science: Materials in Electronics, 22(9), 1269-1273. SCIE(SCI)
21. Wen-Ching Shih, Shu-Jheng Lin, Mu-Shiang Wu(2011). Effect of alumina film on the surface acoustic wave properties of crystalline quartz and lithium niobate. Japanese Journal of Applied Physics, 50(7), 09ND21-1~5. SCIE(SCI)
22. Min-Chun Pan, Tuan-Anh Bui, Yu-Chuan Nien, Wen-Ching Shih(2011). Design and Fabrication of Fresnel Lens and ZnO Thin-Film Transducer. Japanese Journal of Applied Physics, 50(7), 07HD02-1~5. SCIE(SCI)
23. Wen-Ching Shih, Tzyy-Long Wang, Ming-Han Chiang, Mu-Shiang Wu(2011). Preparation and characterization of highly c-axis textured MgO buffer layer grown on Si(100) substrate by RF magnetron sputtering for use as growth template of ferroelectric thin film. Journal of Materials Science: Materials in Electronics, 22(4), 430-436. SCIE(SCI)
24. Pin-Chang Huang, Wen-Ching Shih, Huang-Chin Chen, I-Nan Lin(2011). The induction of a graphite-like phase on diamond films by a Fe-coating/post-annealing process to improve their electron field emission properties. Journal of Applied Physics, 109, 084309-1~-. SCIE(SCI)
25. Pin-Chang Huang, Wen-Ching Shih, Huang-Chin Chen, I-Nan Lin(2011). Enhancement in Electron Field Emission of Microcrystalline Diamond Films upon Iron Coating and Annealing Processes. Japanese Journal of Applied Physics, 50(8), 08KE04-1~5. SCIE(SCI)
26. Wen-Ching Shih, Tzyy-Long Wang, Li-Lun Hsu(2010). Surface acoustic wave properties of aluminum oxide films on lithium niobate. Thin Solid Films, 518, 7143-7146. SCIE(SCI)
27. Wen-Ching Shih, Jian-Min Jeng, Jyi-Tsong Lo, Huang- Chin Chen, I-Nan Lin(2010). Electron field emission properties of carbon nanoflakes materials prepared by RF sputtering. Journal of Materials Science: Materials in Electronics, 21, 926-931. SCIE(SCI)
28. Wen-Ching Shih, Tzyy-Long Wang, Hui-Min Wang, Mu-Shiang Wu(2010). Effect of alumina film on the surface acoustic wave properties of ZnO thin film SAW devices. Japanese Journal of Applied Physics, 49, 09MD15-1~4. SCIE(SCI)
29. Wen-Ching Shih, Ming-Han Chiang(2010). Structural and optical characterization of c-axis textured BaTiO3 thin films on MgO fabricated by RF magnetron sputtering. Journal of Materials Science: Materials in Electronics, 21, 844-848. SCIE(SCI)
30. Wen-Ching Shih, Jian-Min Jeng, Chi-Wei Tsou, Jyi-Tsong Lo, Huang-Chin Chen, I-Nan Lin(2010). Synthesis of Carbon Nanoflakes by Radio-Frequency Sputtering and Their Field Emission Characteristics. Japanese Journal of Applied Physics, 49, 08JF11-1~6. SCIE(SCI)
31. Wen-Ching Shih, Tzyy-Long Wang, Ming-Hsien Chu(2010). Characteristics of ZnO Thin Film Surface Acoustic Wave Devices Fabricated Using Al2O3 Films on Silicon Substrates. Japanese Journal of Applied Physics, 49, 07HD19-1~4. SCIE(SCI)
32. Wen-Ching Shih, Jian-Min Jeng, Chin-Tze Huang, Jyi-Tsong Lo(2010). Fabrication of carbonnanoflakes by RF sputtering for field emission applications. Vacuum, 84, 1452-1456. SCIE(SCI)
33. Wen-Ching Shih, Xiao-Yun Sun(2010). Preparation of C-axis textured LiNbO3 thin films on SiO2/Si substrates with a ZnO buffer layer by pulsed laser deposition process. Physica B, 405, 1619-1623. SCIE(SCI)
34. Wen-Ching Shih, Jian-Min Jeng, Ming-Hong Tsai, Jyi-Tsong Lo(2010). Enhancement of field emission properties of graphite flakes by producing carbon nanotubes on above using thermal chemical vapor deposition. Applied Surface Science, 256, 2409-2413. SCIE(SCI)
35. Chuan-Sheng Wang, Huang-Chin Chen, Wen-Ching Shih, Hsiu-Fung Cheng, I-Nan Lin(2010). Effect of H2/Ar plasma on growth behavior of ultra-nanocrystalline diamond films: The TEM study. Diamond & Related Materials, 19, 138-142. SCIE(SCI)
36. Chuan-Sheng Wang, Ging-Horng Tong, Huang-Chin Chen, Wen-Ching Shih, I-Nan Lin(2010). Effect of N2 addition in Ar plasma on the development of microstructure of ultra-nanocrystalline diamond films. Diamond & Related Materials, 19, 147-152. SCIE(SCI)
37. Wen-Ching Shih, Wei-Hong Yang(2010). Preparation of c-axis textured SrTiO3 thin films on Si(100) substrates by pulsed laser deposition process. Physica B, 405(1), 234-238. SCIE(SCI)
38. Wen-Ching Shih, Jian-Min Jeng, Ming-Hong Tsai, Jyi-Tsong Lo(2009). Improvement of field emission of graphite flakes using hydrogen thermal processing. Applied Surface Science, 255, 7679-7682. SCIE(SCI)
39. Wen-Ching Shih, Jian-Min Jeng, Jyi-Tsong Lo, Huang-Chin Chen, I-Nan Lin(2009). Enhanced Electron Field Eemission characteristics of carbon nanoflakes prepared by modified RF sputtering process. Japanese Journal of Applied Physics, 48, 081602-1~-. SCIE(SCI)
40. Wen-Ching Shih, XIAO-YUN SUN, TZYY-LONG WANG, MU-SHIANG WU(2009). Growth of C-axis Oriented LiNbO3 Film on Sapphire by Pulsed Laser Deposition for Surface Acoustic Wave Applications. Ferroelectrics, 381, 92-99. SCIE(SCI)
41. Wen-Ching SHIH, Tzyy-Long WANG, Yi-Ling KUO(2009). Accelerating Effect of Aluminum Oxide Films on Surface Acoustic Wave on Cystalline Quartz. Japanese Journal of Applied Physics, 48, 07GG11-1~-. SCIE(SCI)
42. WEN-CHING SHIH, REI-CHING HUANG, YAN-KAI PENG, MU-SHIANG WU(2009). Preparation of ZnO Thin Film on Diamond-Like Carbon/Si Substrate by RF Magnetron Sputtering for Surface Acoustic Wave Application. Ferroelectrics, 380, 20-29. SCIE(SCI)
43. Wen-Ching Shih, Hong-Yi Su, Mu-Shiang Wu(2009). Deposition of ZnO thin films on SiO2/Si substrate with Al2O3 buffer layer by radio frequency magnetron sputtering for high frequency surface acoustic wave devices. Thin Solid Films, 517, 3378-3381. SCIE(SCI)
44. Wen-Ching SHIH, Yuan-Sung LIANG, Mu-Shiang WU(2008). Preparation of BaTiO3 Films on Si Substrate with MgO Buffer Layer by RF Magnetron Sputtering. Japanese Journal of Applied Physics, 47(9), 7475-7479. SCIE(SCI)
45. Wen-Ching Shih, Tzyy-Long WANG, Xiao-Yun SUN, Mu-Shiang WU(2008). Growth of C-Axis-Oriented LiNbO3 Films on ZnO/SiO2/Si Substrate by Pulsed Laser Deposition for Surface Acoustic Wave Applications. Japanese Journal of Applied Physics, 47(5), 4056-4059. SCIE(SCI)
46. Wen-Ching Shih, Mao-Jin Wang, I Nan Lin(2008). Characteristics of ZnO thin film surface acoustic wave devices fabricated using nanocrystalline diamond film on silicon substrates. Diamond and Related Materials, 17(3), 390-395. SCIE(SCI)
47. Wen-Ching Shih, Zhih-Zhong Yen, Yuan-Sung Liang(2008). Preparation of highly C-axis oriented PZT films on Si substrate with MgO buffer layer by the sol-gel method. Journal of Physics and Chemistry of Solids, 69, 593-596. SCIE(SCI)
48. Wen-Ching Shih, Rei-Ching Huang(2008). Fabrication of high frequency ZnO thin film SAW devices on silicon substrate with diamond-like carbon film by RF magnetron sputtering. Vacuum, 83, 675-678. SCIE(SCI)
49. Mu-Shiang Wu, Wen-Ching Shih, Woo-Hu Tsai(1998). Growth of ZnO thin films on interdigital transducer/Corning 7059 glass substrates by two-step fabrication methods for surface acoustic wave applicatio. Journal of Physics D: Applied Physics, 31, 943-950. SCIE(SCI)
50. Wen-Ching Shih, Mu-Shiang Wu(1998). Theoretical investigation of the SAW properties of ferroelectric film composite structures. IEEE Transaction on Ultrasonics, Ferroelectrics and Frequency Control, 45(2), 305-316. SCIE(SCI)
51. Wen-Ching Shih, Mu-Shiang Wu(1997). Propagation characteristics of surface acoustic waves in perovskite-type ferroelectric films/MgO/GaAs structures. Journal of Physics D: Applied Physics, 30, 151-160. SCIE(SCI)
52. Wen-Ching Shih, Mu-Shiang Wu(1997). Theoretical study of surface acoustic wave propagation on KNbO3/MgO/GaAs layered structures. Japanese Journal of Applied Physics, 36(1A), 209-213. SCIE(SCI)
53. Wen-Ching Shih, Mu-Shiang Wu(1997). Effect of a buffer layer on the surface acoustic wave characteristics of Pb(Zr,Ti)O3 film/buffer layer/ semiconductor substrate structures. Japanese Journal of Applied Physics, 36(1A), 203-208. SCIE(SCI)
54. Mu-Shiang Wu, Wen-Ching Shih(1997). Propagation characteristics of surface acoustic wave in KNbO3/SrTiO3/Si layered structure. Japanese Journal of Applied Physics, 36(4A), 2192-2195. SCIE(SCI)
55. Wen-Ching Shih, Mu-Shiang Wu(1994). Growth of ZnO films on GaAs substrates with a SiO2 buffer layer by RF planar magnetron sputtering for surface acoustic wave applications. Journal of Crystal Growth, 137, 319-325. SCIE(SCI)
56. Wen-Ching Shih, Mu-Shiang Wu, Masaru Shimizu, Tadashi Shiosaki(1993). The effect of an SiO2 buffer layer on the SAW properties of ZnO/SiO2/GaAs structure. IEEE Transaction on Ultrasonics, Ferroelectrics and Frequency Control, 40(6), 642-647. SCIE(SCI)
研討會論文 (Conference Paper)
1. Awadesh Kumar Mallik, Wen-Ching Shih, Giridharan Krishnamu, Paulius Pobedinskas, Ken Haenen(2020). Effect of linear antenna CVD process parameters on the growth of nanocrystalline diamond films. 25th International Hasselt Diamond Workshop (SBDD XXV). Belgium.
2. 吳蓮定、施文欽、陳亭予(2020)。在奈米碳管上電泳鑽石薄膜提高其場發射穩定性。2020年台灣鍍膜科技協會年會R.O.C。
3. 吳蓮定、施文欽、陳亭予(2020)。在具有不同中介層之不鏽鋼基板上成長奈米碳管作為電子場發射之應用。2020第四屆台灣碳材料學術研討會R.O.C。
4. 陳忠賢、施文欽、林逸芃、林旻嫻(2020)。透過電漿處理改善奈米碳管之電子場發射特性。2020台灣真空學會年會R.O.C。
5. Bohr-Ran Huang, Wen-Ching Shih, Guan-Yu Chen(2019). A comparison of the electron field emission properties of diamond films grow on different nanostructured silicon substrates. 13th International Conference on New Diamond and Nano Carbons (NDNC 2019). R.O.C.
6. 林泓逸、劉亞彥、施文欽(2019)。藉由電漿處理提升奈米碳片之電子場發射特性林泓逸。2019台灣真空學會年會,R.O.C。
7. 羅紹剛、吳蓮定、施文欽(2019)。前處理對鑽石薄膜電子場發射特性影響。2019台灣真空學會年會R.O.C。
8. 吳祥銘、吳蓮定、施文欽(2019)。藉由微波電漿化學氣相沉積法成長鑽石薄膜之電子場發射應用。2019台灣真空學會年會R.O.C。
9. 嚴揚、劉亞彥、施文欽(2019)。利用電漿處理改善奈米晶鑽石薄膜之電子場發射特性。2019台灣真空學會年會R.O.C。
10. Wen-Ching Shih, Guo-Dong Hung, In-Nan Lin(2019). Enhancing the electron field emission properties of carbon nanoflakes by nanocrystalline diamond fil. 24th International Hasselt Diamond Workshop (SBDD XXIV). Belgium.
11. Bohr-Ran Huang, Wen-Ching Shih, Guan-Yu Chen(2019). Preparation of few-layer graphene-capped silicon nanostructures and their electron field emission properties. 13th International Conference on New Diamond and Nano Carbons (NDNC 2019). R.O.C.
12. Wen-Ching Shih, Sheng-Kai Yang, I-Nan Lin(2018). Improving the electron field emission properties of carbon nanomaterials by nanocrystalline diamond films. 2018 Third International Carbon Materials Conference. Mainland China.
13. Wen-Ching Shih, Jia-Ling Wu(2018). Deposition of Aluminum Nitride Films on Al2O3/SiO2/Si Substrates by RF Magnetron Sputtering for Surface Acoustic Wave Applications. 2018 IEEE International Conference on Applied System Innovation (ICASI 2018). Japan.
14. Wen-Ching Shih(2018). Improving the electron field emission properties of carbon nanomaterials by nanocrystalline diamond. 2018 Third International Carbon Materials Conference & Exposition. Mainland China.
15. Jia-Ling Wu, Wen-Ching Shih(2018). Deposition of Aluminum Nitride Films on Al2O3/SiO2/Si Substrates by RF Magnetron Sputtering for Surf. 2018 IEEE International Conference on Applied System Innovation (ICASI 2018). Japan.
16. 劉士誠、施文欽(2018)。結合超奈米晶鑽石薄膜與奈米碳片強化場發射之特性研究。2018年台灣鍍膜科技協會年會R.O.C。
17. Wen-Ching Shih, Sheng-Kai Yang, I-Nan Lin(2017). Enhancing the electron field emission properties of carbon nanotubes by nanocrystalline diamond films. 2017 International Symposium on Diamond Films and Functional Devices, Hangzhou, China. Mainland China.
18. Wen-Ching Shih, Kun-Yi Lee, Chun-Han Lai(2016). Enhancing Electron Field Emission Properties of Carbon Nanowalls on Glass Substrates by Post-Annealing Process. 10th International Conference on New Diamond and Nano Carbons (NDNC 2016). Mainland China.
19. Wen-Ching Shih, Kun-Yi Lee, Jia-Ling Wu, Mu-Shiang Wu(2016). Growth and Characterization of AlN Films on SiO2/Si Substrates with Al2O3 Buffer Layers by RF Magnetron Sputtering. The 33rd meeting on Ferroelectric Materials and Their Applications, (FMA-33). Japan.
20. Wen-Ching Shih, Kun-Yi Lee, Yi-Fan Huang, Mu-Shiang Wu(2016). Enhancing the surface acoustic wave characteristics of zinc oxide thin films on glass substrates by introducing double alumina layers. 2016 International Conference on Applied System Innovation (ICASI 2016). Japan.
21. Wen-Ching Shih, Kuan-Ting Tung, I-Nan Lin(2016). Enhancing Electron Field Emission Properties of Diamond Films by Post-annealing Process. 2016 International Symposium on Diamond Films and Functional Devices. Mainland China.
22. Wen-Ching Shih, Kun-Yi Lee, Chun-Han Lai(2015). Growth of carbon nanoflakes on glass substrates by RF sputtering for electron field emission application. 28th International Microprocesses and Nanotechnology Conference (MNC 2015). Japan.
23. Wen-Ching Shih, Chen-Pang Huang, Mu-Shiang Wu(2015). Improvement of Field Emission Properties of Carbon Nanotubes Using Plasma Treatment and Silicon Coating. The 13rd International Symposium on Sputtering & Plasma Processes (ISSP 2015). Japan.
24. Wen-Ching Shih, Wei-Lin Yang, Mu-Shiang Wu(2015). Synthesis of silicon oxynitride multilayer by RF magnetron sputtering for antireflection coating. The 13rd International Symposium on Sputtering & Plasma Processes (ISSP 2015). Japan.
25. Wen-Ching Shih, Chia-An Chou(2015). Enhancement of electron field emission properties of carbon nanowalls by post-annealing process. 9th International Conference on New Diamond and Nano Carbons (NDNC 2015). Japan.
26. Wen-Ching Shih, YOUNG-LIN JHENG, KUN-YI LEE(2014). Improving Electron Field Emission Characteristics of Carbon Nanowalls Fabricated by Radio-Frequency Sputtering through Thermal Annealing. The 7th International Symposium on Advanced Plasma Science and its Applications for Nitrides and Nan. Japan.
27. Wen-Ching Shih, Hsuan-Chen Chang(2014). Synthesis of carbon nanoflakes on stainless steel substrates by RF sputtering for electron field emission application. The 6th IEEE International Nanoelectronics Conference (IEEE INEC 2014). Japan.
28. Wen-Ching Shih, Kun-Yi Lee, Chia-Chi Chang, Mu-Shiang Wu(2014). Improvement of surface acoustic wave characteristics of ZnO film/interdigital transducer/glass substrate using alumina film interlayer. The 31st meeting on Ferroelectric Materials and Their Applications, (FMA-31). Japan.
29. Wen-Ching Shih, Yi-Fan Huang, MU-SHIANG WU(2014). Improving the properties of zinc oxide thin film surface acoustic wave device on glass substrate by introducing double alumina layers. The 6th International Symposium on Advanced Plasma Science and its Applications for Nitrides and Nan. Japan.
30. Wen-Ching Shih, Pin-Chang Huang, I-Nan Lin(2014). Enhancing the Electron Field Emission Properties of Ultra-nanocrystalline Diamond by Growing on Textured Si Substrate. 8th International Conference on Reactive Plasmas. Japan.
31. Wen-Ching Shih, Yi-Fan Huang, Mu-Shiang Wu(2013). Enhancing the characteristics of zinc oxide thin film surface acoustic wave device by double alumina layers. The 30th meeting on Ferroelectric Materials and Their Applications. Japan.
32. Wen-Ching Shih, Wei-Ming Li, Mu-Rong Yang(2011). Fabrication of ITO/AZO composite transparent conducting film by RF magnetron sputtering. The 11th International Symposium on Sputtering & Plasma Processes. Japan.