歷年教師

洪昭南 退休教師

聯絡方式:

研究室:93A50
分機號碼:(06)2681-262
傳真:(06)-2344496
E-mail:hong@mail.ncku.edu.tw

 

學歷

  • 美國西北大學 化工所 博士(美國 7007 - 7305 )
  • 美國西北大學 化工所 碩士(美國 6709 - 7006 )
  • 國立清華大學 工業化學系 學士(中華民國 6309 - 6706 )

經歷

  • 國立成功大學 教授 (860801 - )
  • 國立成功大學 副教授 (780101 - 860731)

開授課程

  • 99學年 - 上學期, 化工系 甲乙丙 半導體物理與元件
  • 99學年 - 上學期, 化工所 碩博 高等反應工程學
  • 99學年 - 上學期, 化工所 碩博 高等反應工程學
  • 99學年 - 上學期, 化工系 甲乙丙 論文(一)
  • 98學年 - 下學期, 化工所 碩博 創意與創新於奈米科技
  • 98學年 - 下學期, 化工系 甲乙丙 論文(二)
  • 98學年 - 下學期, 化工所 碩博 半導體與光電元件
  • 98學年 - 下學期, 奈微所 碩博 創意與創新於奈米科技

教師著作

A. 期刊論文

  1. F C N Hong,"The fabrication of ZnO nanowire field-effect transistors combining dielectrophoresis and hot-pressing",Nanotechnology;,(SCI 2009)[link]

  2. F C N Hong,"The fabrication of ZnO nanowire field-effect transistors by roll-transfer printing",Nanotechnology;,(SCI 2009)[link]

  3. F C N Hong,"Synthesis and characterization of indium nitride nanowires by plasma-assisted chemical vapor deposition",Materials Letters;,(SCI 2009)[link]

  4. F C N Hong,"Controlled surface diffusion in plasma-enhanced chemical vapor deposition of GaN nanowires",Nanotechnology;,(SCI 2009)[link]

  5. F C N Hong;Y R Jeng;S M Huang,"Low temperature growth of highly transparent nanocrystalline diamond films on quartz glass by hot filament chemical vapor deposition",Diamond and Related Materials;,(SCI 2009)[link]

  6. L Y Chen;F C N Hong,"Fabrication of gallium nitride nanowires by nitrogen plasma.",18th European Conference on Diamond, Diamond-Like Materials, Carbon Nanotubes, Nitrides and Silicon Carbide, Berlin, GERMANY. 2007;,(SCI 2008)[link]

  7. S C;K P K Kumar;H M Tsai;J W Chiou;C W Pao;W Pong;M H Tsai B H Wu;C R Sheu;C C Chen;F C N Hong;H H Cheng;A Dalakyan,"Studies of ion irradiation effects in hydrogenated amorphous carbon thin films by X-ray absorption and photoemission spectroscopy",Thin Solid Films;,(SCI 2008)[link]

  8. Y K Fang;Y T Chiang;T H Chou;F C N Hong,"Mechanism of chemical mechanical planarization induced edge corrosion of copper line for Cu/Low-k SiOC interconnects",Japanese Journal of Applied Physics Part 1-Regular Papers Brief Communications & Review Papers;,(SCI 2007)[link]

  9. F C N Hong,"Growth of free-standing diamond films of hemispheric shells",Surface & Coatings Technology;,(SCI 2006)[link]

  10. K Y;T M Chu;F C N Hong;A Elangovan;K M Kao S W Yang;T I Ho,"Excimer emission from a novel ethyne-based fluorescent dye in organic light-emitting devices",Surface & Coatings Technology;,(SCI 2006)[link]

  11. F C N Hong,"Low temperature growths of nanocrystalline diamond films by plasma-assisted hot filament chemical vapor deposition",Surface & Coatings Technology;,(SCI 2006)[link]

  12. H C Hsu;M S You;F C N Hong,"Growth of diamond films with high surface smoothness",Diamond and Related Materials;,(SCI 2006)[link]

  13. Y H Chiu;H J Liu;Y F Chang;C Y Cheng;F C N Hong,"Ultraviolet curing imprint lithography on flexible indium tin oxide substrates",Journal of Vacuum Science & Technology B;,(SCI 2006)[link]

  14. F C N Hong,"Fabrication of organic light-emitting diode arrays on flexible plastic substrates by imprint lithography",Japanese Journal of Applied Physics Part 1-Regular Papers Brief Communications & Review Papers;,(SCI 2006)[link]

  15. F C N Hong,"Growth of hydrogen-free diamond-like carbon films by a particle-free hollow-cathode arc ion plating system",Thin Solid Films;,(SCI 2006)[link]

  16. F C N Hong,"Interfacial studies for improving the adhesion of diamond-like carbon films on steel",Applied Surface Science;,(SCI 2005)[link]

  17. W H Chen;F C N Hong,"Visible electroluminescence from silicon nanocrystals embedded in amorphous silicon nitride matrix",Applied Physics Letters;,(SCI 2005)[link]

  18. F C N Hong,"Structure and properties of diamond-like carbon nanocomposite films containing copper nanoparticles",Applied Surface Science;,(SCI 2005)[link]

  19. S Y Chu;T Y Chen;C Y Zhan;F C Hong;C Y Chang;L C Hsu;W C Liao;M H Hon,"Fabrication of large-scaled organic light emitting devices on the flexible substrates using low-pressure imprinting lithography",Ieee Transactions on Electron Devices;,(SCI 2005)[link]

  20. F C N Hong,"Carbon-based molecular sieve membranes for gas separation by inductively-coupled-plasma chemical vapor deposition",Microporous and Mesoporous Materials;,(SCI 2005)[link]

  21. F C N Hong,"Effects of surface treatments and annealincy on carbon-based molecular sieve membranes for gas separation",Applied Surface Science;,(SCI 2005)[link]

  22. F C Hong,"Improved performance of the single-layer and double-layer organic light emitting diodes by nickel oxide coated indium tin oxide anode",Thin Solid Films;,(SCI 2004)[link]

  23. Representative Publications

  24. Yu-Chih Kao, Franklin Chau-Nan Hong*, 2013, “Selective electroless plating of silver nanograting patterns with no lateral growth for the fabrication of polarizers”, v231, p460, Surface & Coatings Technology.

  25. Tung-Hsien Wu, Franklin Chau-Nan Hong*, 2013, “Suppressing the lateral growth of gallium nitride nanowires by introducing hydrogen plasma”, v529, p133, Thin Solid Films.

研究

  • Nanodevice-Fabrication Technologies

(Opto-)Electronics and Information Industry

  1. Large-Area Flat Panel Display Nanowire Transistors

(Transparent, High mobility, Atmospheric Manufacture)

  1. Nanowire Light-Emitting Diodes 

(Low Cost, Robust, Large Area)

  1. Light Emitting Diode Displays

(Ultimate Displays – Long Life, High Brightness, Very Thin)

  1. Nanowire Solar Cells

(Robust, High Efficiency, Cheap, Green)

  1. Optoelectronic Integrated Circuits (OEIC)

(Combination of III-V (InGaN) and Si in a single chip)

  • Flexible Devices and Displays Technologies

Mobile Information Industry

  1. Roll-to-Roll Printing Technology for Patterning of Flexible Devices

(Flexible Displays, RFID, E-Paper, etc.)

  1. Self-Assembly Technology for Seamless Imprint Mold Fabrication

(Low Cost and Easy Fabrication)

  1. Transparent Conductive Plastic Film (Bendable, Endurable, Low Cost, High Conductivity and Transparency)

  2. Organic Light Emitting Diode Devices and Flexible Memory Devices (Single-layer Organics, High Efficiency)

  3. Antireflective Optical Films and Biomimetic Devices

  • Plasma Technologies and Thin Film Deposition

Information, Mechanical, Optics and Energy Industries

  1. Atmospheric Plasma

(Deposition, Treatment and Etching)

  1. Novel High-Density Plasma Generation (Low Cost, Large Area and Easy Fabrication)

  2. Functional Thin Films

(Super-tough Nanocomposite Films, Carbon Nanotubes, Silicon Carbide, Cubic Boron Nitride, Diamond-Like Carbon, Nanodiamond, etc.)

  • Functional Nanocomposite Coatings Technologies

Touch Panel, Mobile, Mechanical Industries

  1. Transparent Nanocomposite Hard Coatings

(Super-tough, High Transparency, Low Cost, Large Area and Easy Fabrication)

  1. Transparent and Conductive Nanocomposite Coatings 

(Bendable, Endurable, Low Cost, High Conductivity and Transparency, Smooth, Large Area and Easy Fabrication)

 

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