教師資料

李奎毅 Kuei-Yi Lee
職稱
教授
學歷
日本大阪大學電子工程學博士
電子郵件
kylee@mail.ntust.edu.tw
辦公室
EE813-2

Office Hours Mon. 13:30-15:30
電話 886-2-2730-1254
傳真 886-2-2737-6424
個人網頁 http://homepage.ntust.edu.tw/kylee
實驗室 EE803 先端機能材料實驗室
研究領域 光電半導體材料, 奈米材料, 二維半導體材料, 顯示科技, 能源機能材料, 染料敏化太陽能電池, 電化學生物感測
開授課程 物理, 電磁學, 電子材料, 半導體元件理論, 奈米光電工程技術, 奈微米光電材料, 奈米光子學

2005.08 ~  迄今 臺灣科技大學電子工程系



研究成果
  [1]   W.-J. Su, W.-Q. Weng, Y.-L. Wang, W.-S. Gan, S. Honda, R.-S. Chen, Y.-S. Huang, and K.-Y. Lee*, “Mo1-xWxS2-based photodetector fabrication and photoconductive characteristics,” Jpn. J. Appl. Phys., vol. 56, pp. 032201-1-032201-6, 2017.
  [2]   W.-J. Su, H.-C. Chang, Y.-T. Shih, Y.-P. Wang, H.-P. Hsu, Y.-S. Huang, and K.-Y. Lee*, “Two dimensional MoS2/graphene p-n heterojunction diode: fabrication and electronic characteristics,” J. Alloy. Compd., vol. 671, pp. 276-282, 2016.
  [3]   H.-Y. Chang, Y.-J. Huang, H.-C. Chang, W.-J. Su, Y.-T. Shih, J. L. Chen, S. Honda, Y.-S. Huang, and K.-Y. Lee*, “Electrochemical characteristics of amorphous carbon nanorod synthesized by radio frequency magnetron sputtering,” Appl. Surf. Sci., vol. 326, pp. 243-250, 2015.
  [4]   Y.-J. Huang, H.-Y. Chang, H.-C. Chang, Y.-T. Shih, W.-J. Su, C.-H. Ciou, Y.-L. Chen, S. Honda, Y.-S. Huang, and K.-Y. Lee*, “Field emission characteristics of vertically aligned carbon nanotubes with honeycomb configuration grown onto glass substrate with titanium coating,” Mater. Sci. Eng. B, vol. 182, pp. 14-20, 2014.
  [5]   H.-Y. Chang, H.-C. Chang, and K.-Y. Lee*, “Characteristics of NiO coating on carbon nanotubes for electric double layer capacitor application,” Vacuum, vol. 87, pp. 164-168, 2013.
  [6]   W.-J. Su, Y.-J. Huang, H.-C. Chang, Y.-S. Huang, and K.-Y. Lee*, “Formation and field emission characteristics of nitrogen plasma-treated titanium dioxide clusters,” Physica B, vol. 413, pp. 6-11, 2013.
  [7]   J.-K. Chuang, R.-Y. Fang, Y.-C. Lee, C.-L. Wang, and K.-Y. Lee, “A broadband matched load using multi-walled carbon nanotubes,” IEEE Trans. Nanotechnol., vol. 12, pp. 1213-1218, 2013.
  [8]   H.-C. Chang, H.-Y. Chang, W.-J. Su, K.-Y. Lee*, and W.-C. Shih, “Preparation and electrochemical characterization of NiO nanostructure-carbon nanowall composites grown on carbon cloth,” Appl. Surf. Sci., vol. 258, pp. 8599-8602, 2012.
  [9]   C.-H. Chen, D.-S. Tsai, W.-H. Chung, Y.-D. Chiou, K.-Y. Lee, and Y.-S. Huang, “Miniature asymmetric ultracapacitor of patterned carbon nanotubes and hydrous ruthenium dioxide,” Nanotechnology, vol. 23, pp. 485402-1-485402-8, 2012.
  [10]   Y.-M. Chen, J.-H. Cai, Y.-S. Huang, K.-Y. Lee, D.-S. Tsai, and K.-K. Tiong, “Deposition and characterization of IrOx nanofoils on carbon nanotube templates by reactive magnetron sputtering,” Thin Sold Films, vol. 520, pp. 2409-2413, 2012.
  [11]   Y.-C. Su, C.-A. Chen, Y.-M. Chen, Y.-S. Huang, K.-Y. Lee, K.-K. Tiong, “Characterization of RuO2 nanocrystals deposited on carbon nanotubes by reactive sputtering,” J. Alloys Compd., vol. 509, pp. 2011-2015, 2011.
  [12]   K.-W. Li, H.-B. Lian, J.-H. Cai, Y.-T. Wang, and K.-Y Lee*, “Electron field emission characteristics of different surface morphologies of ZnO nanostructures coated on carbon nanotubes,” J. Nanosci. Nanotechnol., vol. 11, pp. 11019-11022, 2011.
  [13]   Y.-R. Huang, J.-R. Huang, Y.-M. Chen, Y.-S. Huang, G. Keiser, S.-L. Lee, and K.-Y. Lee*, “Design and fabrication of a carbon-nanotube-based capacitor patterned on an Archimedean spiral,” Solid State Commun., vol. 151, pp. 1022-1024, 2011.
  [14]   Y.-M. Chen, J.-H. Cai, Y.-S. Huang, K.-Y. Lee, D.-S. Tsai, and K.-K. Tiong, “A nanostructured electrode of IrOx foil on the carbon nanotubes for supercapacitors,” Nanotechnology, vol. 22, pp. 355708-1-355708-7, 2011.
  [15]   C.-C. Liu, D.-S. Tsai, W.-H. Chung, K.-W. Li, K.-Y. Lee, Y.-S. Huang, “Electrochemical micro-capacitors of patterned electrodes loaded with manganese oxide and carbon nanotubes,” J. Power Sources, vol. 196, pp. 5761-5768, 2011.
  [16]   Y.-M. Chen, C.-A. Chen, Y.-S. Huang, K.-Y. Lee, and K.-K. Tiong, “Characterization and enhanced field emission properties of IrO2-coated carbon nanotube bundle arrays,” Nanotechnology, vol. 21, pp. 035702-1-035702-7, 2010.
  [17]   H.-B. Lian, J.-H. Cai, and K.-Y. Lee*, “Field emission characteristics from tapered ZnO nanostructures grown onto vertically aligned carbon nanotubes,” Vacuum, vol. 84, pp. 534-536, 2010.
  [18]   C.-A. Chen, K.-Y. Lee*, Y.-M. Chen, J.-G. Chi, S.-S. Lin, Y.-S. Huang, “Field emission properties of RuO2 thin film coated on carbon nanotubes,” Vacuum, vol. 84, pp. 1427-1429, 2010.
  [19]   K.-Y. Lee*, C.-A. Chen, H.-B. Lian, Y.-M. Chen, Y.-S. Huang, and G. Keiser, “Pattern growth and field emission characteristics of flower-like RuO2 nanostructures,” Jpn. J. Appl. Phys., vol. 49, p. 105002, 2010.
  [20]   T.-W. Weng, W. Huang, and K.-Y. Lee*, “Improved electrochemical capacitive characteristics by controlling the carbon nanotube morphology and electrolyte solution concentration,” Vacuum, vol. 83, pp. 629-632, 2009.
  [21]   H.-B. Lian, K.-Y. Lee*, K.-Y. Chen, and Y.-S. Huang, “Growth of needle-like RuO2 nanocrystals on carbon nanotubes and their field emission characteristics,” Diamond Relat. Mater., vol. 18, pp. 541-543, 2009.
  [22]   Y.-H. Lai, H.-B. Lian, and K.-Y. Lee*, “Field emission of vertically aligned carbon nanotubes with various content of nitrogen,” Diamond Relat. Mater., vol. 18, pp. 544-547, 2009.
  [23]   T.-W. Weng, Y.-H. Lai, and K.-Y. Lee*, “Area effect of patterned carbon nanotube bundle on field electron emission characteristics,” Appl. Surf. Sci., vol. 254, pp. 7755-7758, 2008.
  [1]   Y.-L. Wang, W.-S. Gan, W.-J. Su, Y.-P. Wang, H.-P. Hsu, Y.-S. Huang, and K.-Y. Lee, “Crystal growth and photoconductive characteristics of W(S1-xSex)2,” 8th International Symposium on Advanced Plasma Science and Its Applications for Nitrides and Nanomaterials (ISPlasma 2016), Nagoya, Japan, March 6-10, 2016.
  [2]   C.-H. Yao, H.-Y. Chang, W.-J. Su, J.-R. Zhang, P.-H. Wu, H.-P. Hsu, Y.-S. Huang, and K.-Y. Lee, “Rhenium-doped MoS2 catalyst for oxygen reduction reaction,” 7th International Symposium on Advanced Plasma Science and Its Applications for Nitrides and Nanomaterials (ISPlasma 2015), Nagoya, Japan, March 26-31, 2015.
  [3]   H.-C. Chang, J.-Y. Huang, H.-Y.Chang, W.-J. Su, Y.-T. Shih, Y.-S. Huang, and K.-Y. Lee, “Synthesis of graphene and carbon nanotube hybrid structure for gas sensor,” International Union of Materials Research Societies–International Conference on Electronic Materials 2014 (IUMRS-ICEM 2014), Taipei, Taiwan, June 10-14, 2014.
  [4]   W.-J. Su, H.-C. Chang, Y.-L. Chen, Y.-S. Huang, and K.-Y. Lee, “Characterization of carbon-nitrogen bonding on nitrogen-doped graphene and its application on field-effect transistor,” The 12th Asia Pacific Physics Conference (APPC12), July 14-19, 2013.
  [5]   H.-C. Chang, C.-H. Ciou, Y.-L. Chen, W.-J. Su, T. R. Henninen, Y.-S. Huang, and K.-Y. Lee, “Modification of Dirac point in graphene-based field effect transistor by nitrogen-doping,” The 12th Asia Pacific Physics Conference (APPC12), July 14-19, 2013.
  [6]   Y.-J. Huang, J.-R. Huang, B.-R. Huang, Y.-T. Shih, C.-L. Wang, Y.-S. Huang, and K.-Y. Lee, “Synthesis of TiO2 nanostructure coated onto carbon nanotube for parallel-plate Archimedean spiral capacitor,” The 6th International Conference on Plasma NanoTechnology & Science (IC-PLANTS 2013), Feb. 2-3, 2013.
  [7]   Y.-T. Shih, Y.-L. Chen, C.-H. Ciou, C.-H. Lin, Y.-S. Huang, and K.-Y. Lee, “Characterization of iridium dioxide-carbon nanotube nanocomposites grown on graphene for electric double layer capacitor,” 4th International Symposium on Advanced Plasma Science and its Applications for Nitrides and Nanomaterials (ISPlasma 2012), Mar. 4-8, 2012.
  [8]   Y.-L. Chen, Y.-J. Huang, Y.-T. Shih, C.-H. Ciou, and K.-Y. Lee, “Nitrogen-doped graphene by plasma treatment and its electrical properties,” 4th International Symposium on Advanced Plasma Science and its Applications for Nitrides and Nanomaterials (ISPlasma 2012), Mar. 4-8, 2012.
  [9]   H.-C. Chang, H.-Y. Chang, K.-Y. Lee, and W.-C. Shih, “Characteristics of carbon nanoflakes depositing on carbon cloth with NiO overlayer for electric double layer capacitor application,” 3rd International Symposium on Advanced Plasma Science and its Applications for Nitrides and Nanomaterials (ISPlasma 2011), Mar. 6-9, 2011.
  [10]   J.-K. Chuang, C.-J. Hsiao, R.-Y. Fang, C.-L. Wang, and K.-Y. Lee, “Broadband patch absorber using multi-walled carbon nanotubes,” 24th International Microprocesses and Nanotechnology Conference (MNC 2011), Oct. 24-27. 2011.
  [11]   H.-C. Chang, H.-Y. Chang, and K.-Y. Lee, “Characteristics of NiO coating on carbon nanotubes for electric double layer capacitor application,” 11th International Symposium on Sputtering and Plasma Processes (ISSP 2011), Jul. 6-8, 2011.
  [12]   H.-C. Chang, K.-W. Li, G.-Y. Zeng, and K.-Y. Lee, “Design of vertically aligned carbon nanotube on quartz substrate and its application to surface conduction electron emitter” International Electron Devices and Materials Symposium (IEDMS) 2011, Taipei, Taiwan, Nov. 17-18, 2011.
  [13]   H.-C. Chang, C.-C. Li, Y.-T. Shih, J.-R. Huang, W.-J. Su and, K.-Y. Lee, “Controlling the graphene layer in thermal chemical vapor deposition by substrate bias,” 24th International Microprocesses and Nanotechnology Conference (MNC 2011),Oct. 24-27, 2011.
  [14]   H.-C. Chang, H.-Y. Chang, K.-Y. Lee, and W.-C. Shih, “Characteristics of carbon nanoflakes depositing on carbon cloth with NiO overlayer for electric double layer capacitor application,” 3rd International Symposium on Advanced Plasma Science and its Applications for Nitrides and Nanomaterials (ISPlasma 2011), Mar. 6-9, 2011.
  [15]   Y. M. Chen, J. A. Chen, Y. S. Huang, K.-Y. Lee, and K. K. Tiong, “Enhanced field emission properties of IrO2 coated carbon nanotube bundle arrays,” The 3rd IEEE International NanoElectronics Conference (IEEE INEC 2010), Jan. 3-8, 2010.
  [16]   C.-C. Li, S.-F. Jheng, K.-Y. Lee, and P.-W. Chiu, “Synthesis of graphene film by thermal chemical vapor deposition for the transparent electrode of field emission,” 23rd International Microprocesses and Nanotechnology Conference (MNC 2010), Nov. 9-12, 2010.
  [17]   Y.-C. Su, C.-A. Chen, Y.-M. Chen, Y.-S. Huang, and K.-Y. Lee, “Characterization of RuO2 nanocrystals deposited on carbon nanotubes by reactive rf sputtering,” The 3rd IEEE International NanoElectronics Conference (IEEE INEC 2010), Jan. 3-8, 2010.
  [18]   G.-Y. Zeng, K.-S. Nian, and K.-Y. Lee, “Characteristics of dye-sensitized solar cell based on ZnO-coated vertically aligned carbon nanotubes electrode,” 10th International Symposium on Sputtering and Plasma Processes (ISSP 2009), Jul. 8-10, 2009.
  [19]   K.-S. Nian, G.-Y. Zeng, and K.-Y. Lee, “Fabrication of dye-sensitized solar cells anode by carbon nanotube bundles for high specific surface area,” 2009 International Symposium of Dye-Sensitized Solar Cells (DSSC 2009),Oct. 22-23, 2009.
  [20]   C.-H. Chen, H.-B. Lian, and K.-Y. Lee, “Field emission characteristics of carbon nanotubes on flexible carbon paper,” 21th International Microprocesses and Nanotechnology Conference (MNC 2008), Oct. 27-30, 2008.
  [21]   Y.-S. Lin, K.-Y. Lee, K.-Y. Chen, and Y.-S. Huang, “Superior capacitive characteristics of RuO2 nanorods grown on carbon nanotubes,” 4th Vacuum and Surface Sciences Conference of Asia and Australia (VASSCAA-4), Matsue, Japan, Oct. 28-31, 2008.
  [22]   T.-W. Weng, W. Huang, and K.-Y. Lee, “Improved electrochemical capacitive characteristics with controlling the length of aligned carbon nanotubes,” 9th International Symposium on Sputtering and Plasma Processes (ISSP 2007), Kanazawa, Japan, Jun. 6-8, 2007.
  [23]   H. V. Tong, K.-Y. Lee, “Surface-Conduction Electron Emitter Display with Geometry Structure of Carbon Nanotube Emitter Arrays”, 9th International Conference on Atomically Controlled Surfaces, Interfaces and Nanostructures, ACSIN-9, Tokyo, Japan, Nov. 11-15, 2007.

計畫名稱 計畫總額 執行始於 執行結束 委託單位
以石墨烯結合奈米碳管製作電晶體通道於感測器之應用 . 0000-00-00 0000-00-00 國科會

指導學生
學年 論文題目 學生
105 石墨烯與過渡金屬硫屬化物材料的特性和應用之研究 蘇偉誌
103 利用射頻磁控濺鍍法成長奈米碳棒之特性及其應用研究 張心悅
103 二氧化釕與奈米碳管複合結構之電化學研究 施懿庭
102 石墨烯與奈米碳管複合結構之研究 張軒誠
學年 論文題目 學生
104 層狀過渡金屬硫屬化合物W(S1-xSex)2之晶體成長及光電導特性研究 王友利
104 二硫硒化鎢層狀半導體之晶體成長與光學特性研究 顏萬祥
103 層狀過渡金屬硫化物Mo1-x Mx S2 之光電導特性研究 翁維謙
103 二硫化鉬摻雜錸作為電化學觸媒之氧氣還原研究 姚其瀚
102 以二硫化鉬/石墨烯及二硒化鉬/石墨烯製作異質接面二極體及其電性量測之研究 蘇偉誌
102 披覆鈦薄膜於蜂巢狀奈米碳管之場電子發射特性 黃湧叡
101 氮摻雜石墨烯之製備及其電晶體之應用 陳怡伶
101 金屬氧化物奈米管之光電導應用 邱晨紘
100 製作阿基米德螺線形奈米碳管電容元件之研究 黃靖儒
100 沉積氧化銥及氧化釕於奈米碳管並以石墨烯為基板之電化學電容特性 施懿庭
99 成長二氧化銥於碳纖維基板上應用於電雙層電容電極之研究 蔡鎮鴻
99 石墨烯之成長並以石墨烯為電極基板應用於場電子發射元件之研究 李建璋
98 利用改變圓柱陣列與披覆二氧化釕奈米結構增強奈米碳管之場發射特性 陳鏡安
98 利用二氧化鈦披覆於垂直成長之奈米碳管束陣列做為染料敏化太陽能電池陽極之研究 粘凱翔
98 利用垂直成長奈米碳管陣列製作表面傳導電子發射射極之特性研究 李冠緯
97 化學改質對於奈米碳管之場電子發射特性分析 陳嘉桓
97 金屬氧化物成長於奈米碳管上之電子場發射特性分析 連宦斌
97 二氧化釕奈米結構成長於不同含氮量之奈米碳管上之超級電容特性分析 林郁勝
97 以氧化鋅奈米結構結合垂直成長奈米碳管之染料敏化太陽能電池特性研究 曾光義
96 奈米碳管之含氮量對場電子發射特性之影響 賴宥豪
96 奈米碳管幾何結構的表面傳導電子發射 湯漢文
95 奈米碳管束面積對場發射特性的影響 翁廷維
學年 專題題目 學生
102 以氮摻雜石墨烯製作石墨烯二極體 范景淳
100 石墨烯結合奈米碳管之奈米元件製作及其特性分析 呂揚翰
99 於奈米碳管上附著氧化鎳奈米結構之電化學電容性質 張心悅
99 以石墨烯結合奈米碳管及披覆二氧化釕奈米結構物製作可撓式場電子發射顯示元件 黃湧叡
98 奈米材料之製作及其在場電子發射顯示器上之應用 王耀德 蘇偉誌
98 奈米材料之製作及其在染料敏化太陽能上之應用 施懿庭
98 奈米材料之製作及其在電化學電容上之應用 劉孟翰
97 二氧化釕奈米結構成長於奈米碳管上之場電子發射特性分析 唐賢恒 廖啟謙
96 氧化鋅奈米結構結合垂直成長奈米碳管之染料敏化太陽能電池特性研究 蔡鎮鴻 周佳璋
95 奈米碳管束面積對場電子發射特性的影響 陳鏡安 陳嘉禾
94 奈米碳管之合成及其特性分析與應用 謝祥銘 吳柏霖 巫宗憲 連宦斌
年份 事蹟