高騏 教授 簡介

職稱:國立成功大學航空太空工程研究所特聘教授
辦公室:5869A
電話:886-6-2757575 ext. 63684
傳真:886-6-2389940

學歷

美國普渡大學機械工程研究所 博士
碩士
學士

經歷

國立成功大學 國立成功大學航空太空工程研究所 教授 1992/08~
美國加州理工學院 訪問教授 2000/09/01至2001/08/31
國立成功大學 國立成功大學航空太空工程研究所 副教授 1984/03至1992/07
美國普渡大學 機械工程 研究助理 1979/09至1984/02
美國紐約州立大學 機械工程系 教學助理 1978/09至1979/05

專長及研究領域

太陽能技術 , 太陽能電池製程研發 , 奈米太陽能電池技術 , 混合式太陽能電池 , 薄膜式太陽能電池 , 奈米機電系統工程 , 奈米元件製造 , 奈米加工技術 , 奈米感測器 , 奈米電晶體 , 奈米材料合成技術 , 奈米粒子 , 奈米碳管 , 奈米線 , 奈米複合材料 , 微機電系統製程研發 , 微奈米熱流現象 , 微電子系統冷卻

榮譽及獎勵

國科會研究優等獎, 1991, 1993
Who's who in Science and Engineering, 1999
國科會研究甲等獎, 1986 ~ 2000
1. Ting-Wei Liu, Tsai Li Sung and Chie Gau , Synthesis of Chalcopyrite Cu(In,Al)S2 Nanocrystals for Solar Cell Materials and their Characterizations , Solar Energy Materials and Solar Cells , 2014 (SCI)
2. Yu-Shun Cheng, Chie Gau , Efficiency Improvement of Organic Solar Cells with Imprint of Nanostructures by capillary force lithography , Solar Energy Materials and Solar Cells , 2014 , Vol. 120 , pp.566–571 (SCI)
3. C. J. Chang, H. T. Chen and Chie Gau , Flow and Heat Transfer of Micro Jet Impinging on a Thermal Chip: Part II Heat Transfer , Nanoscale and Microscale Thermophysical Engineering , 2013 , Vol. 17 , pp.92-111 (SCI)
4. C. J. Chang, C. H. Shen and C. Gau , Flow and Heat Transfer of Micro Jet Impinging on a Thermal Chip: Part I Micro Free and Impinging Jet Flow , Nanoscale and Microscale Thermophysical Engineering , 2013 , Vol. 17 , pp.50-68 (SCI)
5. Pei Ling Li, and Chie Gau, Chien Wei Liu , Correlation between Photo Response and Nanostructures of Silicon Quantum dots in Annealed Si-Rich Nitride Films , Thin Solid Films , 2013 , Vol. 529 , pp.185-189 (SCI)
6. Jiann Der Wu, Ling Ting Wang and Chie Gau , Synthesis of CuInGaSe2 nanoparticles by modified polyol route , Solar Energy Materials and Solar Cells , 2012 , Vol. 98 , pp.404-408 (SCI)
7. B. S. Jeng, S. H. Shiau, C.W. Liu and C. Gau , Fabrication of High Performance SWNT Film FETs in Unipolar p-type, n-type or Ambipolar Characteristics , Journal of Electrochemical Society , 2011 , Vol. 158, No. 12 , pp.H1297-H1304 (SCI)
8. H S Ko, C Gau , Local heat transfer and pressure drop in a Microchannel Integrated with Arrays of Temperature and Pressure Sensors , Microfluidics and Nanofluidics , 2011 , Vol. 10 , pp.563–577 (SCI)
9. Ting.Y. Liu, P. L. Li, C. W. Liu, and C. Gau , Boiling Flow Characteristics in Microchannels with Very Hydrophobic Surface to Super-hydrophilic Surface , International Journal of Heat and Mass Transfer , 2011 , Vol. 54 , pp. 126-134 (SCI)
10. C. S. Yang, Yaw-Jou Yang, Hong-Rong Chen and C. Gau , Experimental Study of Pre-Swirl Flow Effect on the Heat Transfer Process in the Entry Region of a Convergent Pipe , Experimental Thermal and Fluid Science , 2011 , Vol. 35 , pp. 73–81 (SCI)
11. Cheng-Yung Kuo, C Gau and B. T. Dai , Photovoltaic Characteristics of Silicon Nanowire Arrays Synthesized by Vapor-Liquid-Solid Process , Solar Energy Materials and Solar Cells , 2011 , Vol. 95 , pp154–157 (SCI)
12. P. L. Li, H. S. Ko, D. Z. Jeng and C. Gau , Performance Evaluation of a Micro Film Cooling Process in a Micro Film-Cooled Device Fabricated by MEMS , Journal of Aeronautics and Astronautics B , 2010 , Vol. 42, No.1 , pp.037-042 (EI)
13. Cheng-Yung Kuo, C Gau , Control of Superhydrophilicity and Superhydrophobicity of a Superwetting Silicon Nanowire Surface , Journal of the Electrochemical Society , 2010 , Vol. 157(9) , pp.K201-K205 (SCI)
14. P. L. Li, C. Gau, C. W. Liu and B. T. Dai , Synthesis of Silicon Quantum Dots from Silicon Rich Nitride by Thermal Annealing 2010. , Nano Communication , 2010 , Vol. 17 (2) , pp42-46 (EI)
15. C. Gau, H. T. Chen and H. S. Ko , Microwave bonding of MWNTs and fabrication of low-cost, high-performance polymer pressure sensor , Journal of Micromechanics and Microengineering , 2010 , Vol. 20, No. 6 , art no. 065009 (SCI)
16. C. S. Yang, D. Z. Jeng, C. W. Liu, C. G. Liu and C. Gau , Fluid flow and heat transfer in a horizontal channel with divergent top wall and heated from below , ASME Journal of Heat Transfer , 2010 , Vol. 132, Aug. , art no. 081403 (SCI)
17. C Gau, Cheng-Yung Kuo, H. S. Ko , Electron tunneling in carbon nanotube composites , Nanotechnology , 2009 , Vol. 20, No. 39 , art no. 395705 (SCI)
18. Chie Gau, H. S. Ko and H. T. Chen , Piezoresistive Characteristics of MWNTs Nanocomposites and Fabrication as Polymer Pressure Sensor , Nanotechnology , 2009 , Vols. 20, No. 18 , art no. 185503 (SCI)
19. H. S. Ko and C. Gau , Bonding of a complicated polymer microchannel system for study of pressurized liquid flow characteristics with electric double layer effect , Journal of Micromechanics and Microengineering , 2009 , Vol. 19 , art no. 115024, (SCI) 摘要
20. P. L. Li, H. S. Ko, D. Z. Jeng, C. W. Liu and C. Gau , Micro Film Cooling Performance , International Journal of Heat and Mass Transfer , 2009 , Vol. 52 , pp. 5889-5894 (SCI) 摘要
21. Chun-Rong Lin, Yu-Jhan Siao, Shin-Zong Lu, and Chie Gau , Magnetic Properties of Iron Selenide Nanocrystals Synthesized by the Thermal Decomposition , IEEE Transactions on Magnetics , 2009 , Vol. 45, No. 10 , pp.4275-4278 (SCI) 摘要
22. C. Gau, C. H. Shen and Z. B. Wang , Peculiar Phenomenon of Micro-Free-Jet Flow , Physics of Fluids , 2009 , Vol. 21, No. 9 , art no. 092001 (SCI) 摘要
23. C. S. Yang, D. Z. Jeng, U. H.. Tang, C. Gau , Flow and Heat Transfer of Natural Convection in Horizontal Annulus with a Heating Element on Inner Cylinder , ASME Journal of Heat Transfer , 2009 , Vol.131, Issue 8 , art No. 082502 (SCI) 摘要
24. Chie Gau, Shuo-Ying Chen, Hsin-Luen Tsai, Syh-Tsang Jenq, Cheng-Ching Lee,Yu-Der Chen and Ting-Hua Chien , Synthesis of Functionalized Carbon Nanotubes/Phenolic Nano-Composites and Its Electrical and Thermal Conductivity Measurements , Japanese Journal of Applied Physics , 2009 , Vol. 48, No. 6 , 06FF10 (SCI) 摘要
25. Chie Gau, H. S. Ko and H. T. Chen , Piezoresistive characteristics of MWNT nanocomposites and fabrication as a polymer pressure sensor , Nanotechnology , 2009 , Vol. 20, No. 18 , art no. 185503 (SCI) 摘要
26. C. Y. Kuo and C. Gau , Arrangement of band structure for organic-inorganic photovoltaics embedded with silicon nanowire arrays grown on indium tin oxide glass , Applied Physics Letters , 2009 , Vol. 95 , art no. 053302 (SCI) 摘要
27. D. Z. Jeng, C. S. Yang, and C. Gau , Experimental and Numerical Study of Transient Natural Convection Due to Mass Transfer in Inclined Enclosures , International Journal of Heat and Mass Transfer , 2009 , Vol. 52, No. 1 , pp. 181?V192 (SCI) 摘要
28. C. S. Yang, D. Z. Jeng, K. A. Yih, C. Gau and Win Aung , Numerical and Analytical Study of Reversed Flow and Heat Transfer in a Heated Vertical Duct , ASME Journal of Heat Transfer , 2009 , Vol. 131, Issue 7 , art No. 072501 (SCI) 摘要
29. C. S. Yang, C. G. Liu and C. Gau , Study of Channel Divergence on the Flow and Heat Transfer in Horizontal Ducts Heated from a Side , International Journal of Thermal Sciences , 2009 , Vol. 48, Issue 1 , pp. 105-113 (SCI) 摘要
30. C. S. Yang, C. L. Lin and C. Gau , Film Cooling Performance and Heat Transfer over an Inclined Film-Cooled Surface at Different Convergent Angles with Respect to Highly Turbulent Mainstream , Applied Thermal Engineering , 2009 , Vol. 29, Jan., , pp. 167-177 (SCI) 摘要
31. C. Y. Kuo, W. C. Tang, C. Gau, T. F. Guo, D. Z. Jeng , Ordered Bulk Heterojunction Solar Cells with Vertically Aligned TiO2 Nanorods Embedded in a Conjugated Polymer , Applied Physics Letters , 2008 , Vol. 93, No. 3 , art no. 033307 (SCI)
32. H. S. Ko, C. W. Liu, C. Gau and D. Z. Jeng , Flow Characteristics in a Microchannel System Integrated with Arrays of Micro Pressure Sensors Using Polymer Material , Journal of Micromechanics and Microengineering , 2008 , Vols.18 , art no. 075016 (SCI)
33. S H Shiau, C W Liu, C Gau, B T Dai , Growth of Single Wall Carbon Nanotube Film and its Patterning as n-type Field Effect Transistor Device with Integrated Circuit Compatible Process , Nanotechnology , 2008 , Vol. 19 , art no. 105303 (7pp) (SCI)
34. S. H Shiau, C W Liu, C Gau, B T Dai , Characterization of an as Grown n-type SWNTs Film , to appear in Nanotechnology , 2008 (SCI)
35. C. S. Yang, C. L. Lin and C. Gau , Film Cooling Performance and Heat Transfer over an Inclined Film-Cooled Surface , AIAA Journal of Thermophysics and Heat Transfer , 2008 , Vol. 22, No. 3 , pp.485-492 (SCI)
36. H. S. Ko, C. W. Liu and C. Gau , Micro Pressure Sensor Fabrication without Problem of Stiction for a wider range of Measurement , Sensors and Actuators A: Physical Vol. 138 , 2007 , Vol. 138 , pp.261–267 (SCI)
37. H. S. Ko, C. W. Liu and C. Gau , A Novel Fabrication for Pressure Sensor with Polymer Material and Evaluation of Its Performance , Journal of Micromechanics and Microengineering , 2007 , Vol. 17 , pp.1640-1648 (SCI)
38. C. W. Liu, C. Y. Kuo, C. P. Wang, S. H. Shiau, C. Gau, B. T. Dai , Low Temperature Synthesis of Single Crystalline Silicon Nanowires Using Anodic Aluminum Oxide Template , Japanese Journal of Applied Physics , 2007 , Vol. 46, No. 9B , pp.6343-6345 (SCI)
39. H.S. Ko, C. W. Liu, C. Gau and C. S. Yang , Fabrication and design of a heat transfer micro channel system at low temperature MEMS technique , Journal of of Micromechanics and Microengineering , 2007 , Vol. 17 , pp.983-993 (SCI)
40. S. H. Shiau, C. Y. Kuo, C. Gau C. W. Liu, C. H. Lin , Enhancement of Conductivity for PET Matrix Reinforced with Carbon Nanotubes , Japanese Journal of Applied Physics , 2007 , Vol. 46, No. 9B , pp.6335-6338 (SCI)
41. C. S. Yang, C. L. Kung and C. Gau , Heat Transfer Process Under a Film-Cooled Surface with Presence of Weak Swirling Flow in the Mainstream , Experimental Thermal and Fluid Science , 2007 , Vol. 32 , pp.632-640 (SCI)
42. C. Y. Kuo, C. L. Chan, C. Gau, C. W. Liu, S. H. Hsiau, S. H. Ting , Nano Temperature Sensor Using Selective Lateral Growth of Carbon Nanotube Between Electrodes , IEEE Transactions on Nanotechnology , 2007 , Vol. 6, No. 1 , pp. 63-69 (SCI)
43. C. W. Liu, C. Gau, H. S. Ko, C. S. Yang and B. T. Dai , Fabrication Challenges for a Complicated Micro-flow Channel System at Low Temperature Process , Sensors and Actuators A: Physical , 2006 , Vol. A 130-131, Aug. , pp.575-582 (SCI)
44. C. Gau and C. W. Liu , Fabrication of Microchannel for Liquid Flow and Micro-Scale Heat transfer Process , Engineering Science and Technology Bulletin of NSC , 2006 , Vol. 84 , pp.76-80 (SCI)
45. J. H. Su, C. Gau and C. S. Yang , Enhancement of Heat Transfer over a Cylinder by Acoustic Excitation , AIAA Journal of Thermophysics and Heat Transfer , 2006 , Vol. 20, No. 2 , pp. 256-266 (SCI)
46. C. W. Liu, C. Gau, C. G. Liu and C. S. Yang , Design Consideration and Fabrication of a Microchannel System Containing a Set of Heaters and an Array of Temperature Sensors , Sensors and Actuators A: Physical , 2005 , Vol. 122, Issue 2 , pp.177-183 (SCI)
47. C. H. Shen and C. Gau , Heat Exchanger Fabrication with Arrays of Sensors and Heaters with Its Micro-Scale Impingement Cooling Process Analysis and Measurements , Sensors and Actuators A: Physical , 2004 , Vo. 114 , pp.154-162 (SCI)
48. C. W. Liu and C. Gau , Onset of Secondary Flow and Enhancement of Heat Transfer in Horizontal Convergent and Divergent Channels Heated from Below , International Journal of Heat and Mass Transfer , 2004 , Vol. 47 , pp. 5427-5438 (SCI)
49. C. W. Liu, C. Gau and B. T. Dai , Design and Fabrication Development of a Micro Flow Heated Channel with Measurements of the inside Micro-Scale Flow and Heat Transfer Process , Biosensors and Bioelectronics , 2004 , Vol. 20, No. 1 , pp.91-101 (SCI)
50. C. H. Shen and C. Gau , Thermal Chip Fabrication with Arrays of Sensors and Heaters for Micro-Scale Impingement Cooling Heat Transfer Analysis and Measurements , Biosensors and Bioelectronics , 2004 , Vol. 20, No. 1 , pp.103-114 (SCI)
51. C. Gau and C. W. Liu , Fabrication Development of Micro-Liquid Flow Channel and Thermal-Flow Transport Phenomenon , Engineering Science and Technology Bulletin of NSC , 2003 , Vol. 68 , pp.121-124 (SCI)
52. H. R. Chen, C. Gau, B. T. Dai and M. S. Tsai , A Novel Planarization Process for Sacrificial Polysilicon Layers in a Micro-Thermal System , Sensors and Actuators A: Physical , 2003 , Vol. 108/1-3, Nov. , pp.86-90 (SCI)
53. H. R. Chen, C. Gau, B. T. Dai and M. S. Tsai , A Monolithic Fabrication Process for a Micro-Flow Heat Transfer Channel Suspended over an Air Layer with Arrays of Micro Sensors and Heaters , Sensors and Actuators A: Physical , 2003 , Vol. 108/1-3, Nov. , pp.81-85 (SCI)
54. C. Gau, S. X. Wu and H. S. Su , Synchronization of Vortex Shedding and Heat Transfer Enhancement over a Heated Cylinder Oscillating with Small Amplitude in Streamwise Direction , ASME Journal of Heat Transfer , 2001 , Vol. 123, No. 6 , pp.1139-1148 (SCI)
55. C. Gau Y. J. Yang and H. R. Chen , Heat Transfer Enhancement of Swirling Flow in a Convergent Pipe , Journal of Chinese Society of Mechanical Engineer , 2001 , Vol. 22, No. 2 , pp.121-129 (EI)
56. C. W. Liu and C. Gau , Onset of Secondary Flow and Heat Transfer Enhancement in Horizontal Convergent and Divergent Channels Heated from Below , Transaction of the Aeronautical and Astronautical Society of the Republic of China , 2000 , Vol. 32, No. 3 , pp.251-257 (EI)
57. C. Gau and I. C. Lee , Flow and Impingement Cooling Heat Transfer Along Triangular Rib-Roughened Walls , International Journal of Heat and Mass Transfer , 2000 , Vol. 43, No. 24 , pp.4405-4418 (SCI)
58. C. Gau, Y. C. Jeng and C. G. Liu , An Experimental Study of Mixed Convection in a Horizontal Channel Heated from a Side , ASME Journal of Heat Transfer , 2000 , Vol. 122, Nov. , pp.701-707 (SCI)
59. C. Gau, J. M. Wu and C. Y. Liang , Vortex Flow Structure and Heat Transfer over a Heated Cylinder Oscillating in Crossflow Direction , ASME Journal of Heat Transfer , 1999 , Vol. 121 , pp.789-795 (SCI)
60. C. Gau, C. W. Liu, T. M. Huang and W. Aung , Secondary Flow and Enhancement of Heat Transfer in Horizontal Parallel-Plate and Convergent Channels Heating from Below , International Journal of Heat and Mass Transfer , 1999 , Vol. 42 , pp.2629-2647 (SCI)
61. C. Gau, T. M. Huang, C. W. Liu and W. Aung , Mixed Convection Flow and Heat Transfer in a Horizontal Divergent Channel with Bottom Wall Heated , Proceedings of 11th International Heat Transfer Conference , 1998 , Vol. 3 , pp.257-262 (SCI)
62. C. Gau and H. R. Chen , Enhancement of Heat Transfer for Swirling Flow Issued into a Divergent Pipe , AIAA Journal of Thermophysics and Heat Transfer , 1998 , Vol. 22, No. 1 , pp.87-93 (EI)
63. C. Gau, W. Y. Sheu and C. H. Shen , Impingement Cooling Flow and Heat Transfer under Acoustic Excitations , ASME Journal of Heat Transfer , 1997 , Vol. 119, No. 4 , pp.810-817 (SCI)
64. T. M. Huang, C. Gau and W. Aung , Flow and Mixed Convection Heat Transfer in a Divergent Heated Vertical Channel , ASME Journal of Heat Transfer , 1996 , Vol. 118, No. 3 , pp.606-615 (SCI)
65. C. Gau and D. Z. Jeng , Solutal Convection and Mass Transfer in Enclosures , AIAA Journal of Thermophysics and Heat Transfer , 1995 , Vol. 9, No. 2 , pp.262-269 (SCI)
66. C. Gau, T. M. Huang and W. Aung , Mixed Convection Flow and Heat Transfer in a Heated Vertical Convergent Channel , International Journal of Heat and Mass Transfer , 1995 , Vol. 38, No. 13 , pp.2445-2456 (SCI)
67. D. Z. Jeng, C. Gau and K. H. Wu , Transient Solutal Convection and Layer Growth Process in a Rectangular Enclosure , Journal of the Chinese Society of Mechanical Engineers , 1994 , Vol. 15, No. 2 , pp.174-186 (SCI)
68. D. Z. Jeng and C. Gau , Experimental and Numerical Visualization of Transient Natural Convection in Inclined Enclosures , Journal of Flow Visualization and Image Processing , 1994 , Vol. 5 , pp.22-33 (SCI)
69. F. K. Tsou, W. Aung, H. E. Moghadam and C. Gau , Wall Heating Effects in Mixed Convection in Vertical Annulus with Variable Properties , AIAA Journal of Thermophysics and Heat Transfer , 1992 , Vol. 6, No. 2 , pp.273-276 (SCI)
70. K. H. Wu and C. Gau , Thermosolutal Convection with Coupled Heat and Mass Transfer in a Square Enclosure , Experimental Heat Transfer , 1992 , Vol. 5 , pp.195-215 (SCI)
71. C. Gau and C. C. Lee , Impingement Cooling Flow Structure and Heat Transfer along Rib-Roughened Walls , International Journal of Heat and Mass Transfer , 1992 , Vol. 35, No. 11 , pp.3009-3020 (SCI)
72. C. Gau, K. A. Yih and W. Aung , Reversed Flow Structure and Heat Transfer Measurements for Buoyancy Assisted Convection in a Heated Vertical Duct , ASME Journal of Heat Transfer , 1992 , Vol. 114, No. 4 , pp.928-935 (SCI)
73. C. Gau and K. A. Yih and W. Aung , Measurements of Heat Transfer and Flow Structure in Heated Vertical Channels with Buoyancy Assisted and Opposed Flows , AIAA Journal of Thermophysics and Heat Transfer , 1992 , Vol. 6, No. 4 , pp.707-712 (SCI)
74. C. Gau and K. H. Wu , Layer Growth Process of Transient Thermosolutal Convection in a Square Enclosure , International Journal Heat and Mass Transfer , 1992 , Vol. 35, No. 9 , pp.2257-2269 (SCI)
75. C. Gau and T. M. Huang , Effect of Coaxial Jet on Film Cooling Performance Downstream of a Suddenly Expanded Swirling Flow , AIAA Journal of Thermophysics and Heat Transfer , 1992 , Vol. 6, No.1 , pp.135-138 (SCI)
76. C. Gau, K. A. Yih and S. S. Chang , Effect of Swirling Flow on the Film Cooling Performance Downstream of a Sudden Expansion , AIAA Journal of Thermophysics and Heat Transfer , 1991 , Vol. 5, No.1 , pp.89-95 (SCI)
77. C. Gau and C. M. Chung , Surface Curvature Effect on Slot-Air-Jet Impingement Cooling Flow and Heat Transfer Process , ASME Journal of Heat Transfer , 1991 , Vol. 113, No.4 , pp.858-864 (SCI)
78. C. Gau and W. B. Hwang , Effect of Weak Swirling Flow on Film Cooling Performance , ASME Journal of Turbomachinery , 1990 , Vol. 112 , pp.786-791 (SCI)
79. C. Gau and T. M. Huang , Film Cooling Performance over an Inclined Surface , Journal of The Chinese Society of Mechanical Engineers , 1990 , Vol. 11, No.3 , pp.245-251 (SCI)
80. C. Gau and K. H. Wu , A Nonintrusive Technique for Measurement of Concentration Distribution in Enclosure , Experimental Heat Transfer , 1989 , Vol. 2 , pp.215-226 (SCI)
81. C. Gau and T. L. Kung , Effect of Swirl Flow on Film Cooling Heat Transfer , Journal of The Chinese Society of Theoretical and Applied Mechanics , 1989 , Vol. 4, No.2 , pp.125-131 (EI)
82. R. Viskanta, D. M. Kim and C. Gau , Three-Dimensional Natural Convection Heat Transfer of a Liquid Metal in a Cavity , Int. J. Heat and Mass Transfer , 1986 , Vol. 29, No.3 , pp.475-485 (SCI)
83. C. Gau and R. Viskanta , Effect of Natural Convection on Melting and Solidification Heat Transfer of a Pure Metal Heated or Cooled from a Side , ASME Journal of Heat Transfer , 1986 , Vol. 108, No.1 , pp.174-181 (SCI)
84. C. Gau and R. Viskanta , Effect of Crystal Anisotropy on Heat Transfer During Melting and Solidification of a Metal , ASME Journal of Heat Transfer , 1985 , Vol. 107 , pp.706-708 (SCI)
85. C. Gau and R. Viskanta , Effect of Natural Convection on Solidification from Above and Melting from Below of a Pure Metal , Int. J. Heat Mass Transfer , 1985 , Vol. 28, No.3 , pp.573-587 (SCI)
86. C. J. Ho, R. Viskanta and C. Gau , Phase-Change Heat Transfer in Rectangular cavities , in Multi-Phase Flow and Heat Transfer III. Part B: Application , 1984 , pp.541-563 (SCI)
87. C. Gau and R. Viskanta , Melting and Solidification of a Metal System in a Rectangular Cavity , International Journal of Heat and Mass Transfer , 1984 , Vol. 27 , pp.113-123 (SCI)
88. C. Gau, C. J. Ho and R. Viskanta , Flow Visualization during Solid-Liquid Phase Change Heat Transfer in Rectangular Cavity: II. Melting in a Rectangular Cavity , Int. Comm. Heat and Mass Transfer , 1983 , Vol. 10, No.3 , pp.183-190 (SCI)
89. C. Gau and R. Viskanta , Flow Visualization During Solid-Liquid Phase Change Heat Transfer in Rectangular Cavity: I. Solidification in a Rectangular Cavity , Int. Comm. Heat and Mass Transfer , 1983 , Vol. 10, No.3 , pp.173-181 (SCI)
90. C. Gau and R. Viskanta , Inward Solidification of a Superheated Liquid in a Cooled Horizontal Tube , Warme-und Stoffubertragung , 1982 , Vol. 17 , pp.39-46 (SCI)
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14. [94] 含陣列式壓力感測器之微加熱管設計和製造及其內之熱流量測(1/2)
國科會 (94..8.1-95.7.31)
15. [93] 微熱管內之兩相流和熱傳實驗研究(II)
國立成功大學航空太空工程學系 (93~94) 中文摘要 英文摘要
16. [93] 微熱管內之兩相流和熱傳實驗研究(II)
國科會 (93.8.1-94.7.31)
17. [92] 微熱管內之兩相流和熱傳實驗研究
國立成功大學航空太空工程學系 (92~93) 中文摘要 英文摘要
1. C. Gau and R. Viskanta ``Inward Solidification of a Superheated Liquid in a Cooled Horizontal Tube," Warme-und Stoffubertragung, Vol. 17, pp.39-46 (1982), Germany (SCI, EI).
2. C. Gau and R. Viskanta ``Flow Visualization During Solid-Liquid Phase Change Heat Transfer in Rectangular Cavity: I. Solidification in a Rectangular Cavity," Int. Comm. Heat and Mass Transfer, Vol. 10, No.3, pp.173-181 (1983), (SCI, EI).
3. C. Gau, C. J. Ho and R. Viskanta ``Flow Visualization during Solid-Liquid Phase Change Heat Transfer in Rectangular Cavity: II. Melting in a Rectangular Cavity," Int. Comm. Heat and Mass Transfer, Vol. 10, No.3, pp.183-190 (1983), (SCI, EI).
4. C. J. Ho, R. Viskanta and C. Gau ``Phase-Change Heat Transfer in Rectangular cavities,” in Multi-Phase Flow and Heat Transfer III. Part B: Application, edited by T. N. Veziroglu and A. E. Bergles, Elsevier Science Publisher B.V., Amsterdan, Netherlands, pp.541-563 (1984), USA.
5. C. Gau and R. Viskanta ``Melting and Solidification of a Metal System in a Rectangular Cavity," International Journal of Heat and Mass Transfer, Vol. 27, 1984, pp.113-123 (1984), (SCI, EI).
6. C. Gau and R. Viskanta ``Effect of Natural Convection on Solidification from Above and Melting from Below of a Pure Metal," Int. J. Heat Mass Transfer, Vol. 28, No.3, pp.573-587 (1985), (SCI, EI).
7. C. Gau and R. Viskanta ``Effect of Natural Convection on Melting and Solidification Heat Transfer of a Pure Metal Heated or Cooled from a Side," ASME, Journal of Heat Transfer, Vol. 108, No.1, pp.174-181 (1986), (SCI, EI).
8. C. Gau and R. Viskanta ``Effect of Crystal Anisotropy on Heat Transfer During Melting and Solidification of a Metal," ASME, Journal of Heat Transfer, Vol. 107, pp.706-708 (1985), (SCI, EI).
9. R. Viskanta, D. M. Kim and C. Gau ``Three-Dimensional Natural Convection Heat Transfer of a Liquid Metal in a Cavity," Int. J. Heat and Mass Transfer, Vol. 29, No.3, pp.475-485 (1986), (SCI, EI).
10. C. Gau and K. H. Wu ``A Nonintrusive Technique for Measurement of Concentration Distribution in Enclosure," Experimental Heat Transfer, Vol. 2, pp.215-226 (1989), USA. (SCI, EI)
11. C. Gau and T. L. Kung ``Effect of Swirl Flow on Film Cooling Heat Transfer," Journal of The Chinese Society of Theoretical and Applied Mechanics, Vol. 4, No.2, pp.125-131 (1989), (EI).
12. C. Gau and W. B. Hwang ``Effect of Weak Swirling Flow on Film Cooling Performance," ASME, Journal of Turbomachinery, Vol. 112, pp.786-791 (1990), (SCI, EI).
13. C. Gau and T. M. Huang ``Film Cooling Performance over an Inclined Surface," Journal of The Chinese Society of Mechanical Engineers, Vol. 11, No.3, pp.245-251 (1990), (EI).
14. C. Gau, K. A. Yih and S. S. Chang ``Effect of Swirling Flow on the Film Cooling Performance Downstream of a Sudden Expansion," AIAA Journal of Thermophysics and Heat Transfer, Vol. 5, No.1, pp.89-95 (1991), USA. (EI)
15. C. Gau and C. M. Chung ``Surface Curvature Effect on Slot-Air-Jet Impingement Cooling Flow and Heat Transfer Process," ASME, Journal of Heat Transfer, Vol. 113, No.4, pp.858-864 (1991). (SCI, EI)
16. C. Gau and T. M. Huang ``Effect of Coaxial Jet on Film Cooling Performance Downstream of a Suddenly Expanded Swirling Flow," AIAA Journal of Thermophysics and Heat Transfer, Vol. 6, No.1, pp.135-138 (1992), USA. (SCI, EI)
17. C. Gau and K. A. Yih and W. Aung ``Measurements of Heat Transfer and Flow Structure in Heated Vertical Channels with Buoyancy Assisted and Opposed Flows," AIAA Journal of Thermophysics and Heat Transfer, Vol. 6, No. 4, pp.707-712, Oct.-Dec. (1992) USA. (SCI, EI)
18. C. Gau and K. H. Wu ``Layer Growth Process of Transient Thermosolutal Convection in a Square Enclosure," International Journal Heat and Mass Transfer, Vol. 35, No. 9, pp.2257-2269 (1992) USA. (SCI, EI)
19. C. Gau and C. C. Lee ``Impingement Cooling Flow Structure and Heat Transfer along Rib-Roughened Walls," International Journal of Heat and Mass Transfer, Vol. 35, No. 11, pp.3009-3020 (1992) USA. (EI, SCI)
20. C. Gau, K. A. Yih and W. Aung ``Reversed Flow Structure and Heat Transfer Measurements for Buoyancy Assisted Convection in a Heated Vertical Duct," ASME, Journal of Heat Transfer, Vol. 114, No. 4, pp.928-935, Nov. (1992) USA. (SCI, EI))
21. F. K. Tsou, W. Aung, H. E. Moghadam and C. Gau ``Wall Heating Effects in Mixed Convection in Vertical Annulus with Variable Properties," AIAA Journal of Thermophysics and Heat Transfer, Vol. 6, No. 2, pp.273-276 (1992), USA. (SCI, EI)
22. K. H. Wu and C. Gau ``Thermosolutal Convection with Coupled Heat and Mass Transfer in a Square Enclosure," Experimental Heat Transfer, Vol. 5, pp.195-215 (1992). (SCI, EI)
23. D. Z. Jeng, C. Gau and K. H. Wu ``Transient Solutal Convection and Layer Growth Process in a Rectangular Enclosure," Journal of the Chinese Society of Mechanical Engineers, Vol. 15, No. 2, pp.174-186 (1994), Taiwan, ROC. (SCI, EI)
24. D. Z. Jeng and C. Gau, ``Experimental and Numerical Visualization of Transient Natural Convection in Inclined Enclosures," Journal of Flow Visualization and Image Processing, Vol. 5, pp.22-33 (1994)(EI, SCI).
25. C. Gau and D. Z. Jeng, ``Solutal Convection and Mass Transfer in Enclosures," AIAA Journal of Thermophysics and Heat Transfer, Vol. 9, No. 2, pp.262-269 (1995). (EI, SCI)
26. C. Gau, T. M. Huang and W. Aung, ``Mixed Convection Flow and Heat Transfer in a Heated Vertical Convergent Channel," International Journal of Heat and Mass Transfer, Vol. 38, No. 13, pp.2445-2456 (1995). (EI, SCI)
27. T. M. Huang, C. Gau and W. Aung, ``Flow and Mixed Convection Heat Transfer in a Divergent Heated Vertical Channel," ASME Journal of Heat Transfer, Vol. 118, No. 3, pp.606-615 (1996). (EI, SCI)
28. C. Gau, W. Y. Sheu and C. H. Shen, ``Impingement Cooling Flow and Heat Transfer under Acoustic Excitations," ASME Journal of Heat Transfer, Vol. 119, No. 4, pp.810-817 (1997). (EI, SCI)
29. C. Gau and H. R. Chen, ``Enhancement of Heat Transfer for Swirling Flow Issued into a Divergent Pipe," AIAA Journal of Thermophysics and Heat Transfer, Vol. 22, No. 1, pp.87-93 (1998). (EI)
30. C. Gau, T. M. Huang, C. W. Liu and W. Aung, "Mixed Convection Flow and Heat Transfer in a Horizontal Divergent Channel with Bottom Wall Heated," Proceedings of 11th International Heat Transfer Conference, Vol. 3, pp.257-262, Kyongju, Korea, Aug 23-28 (1998).
31. C. Gau, C. W. Liu, T. M. Huang and W. Aung, ``Secondary Flow and Enhancement of Heat Transfer in Horizontal Parallel-Plate and Convergent Channels Heating from Below,” International Journal of Heat and Mass Transfer, Vol. 42, pp.2629-2647 (1999). (EI, SCI)
32. C. Gau, J. M. Wu and C. Y. Liang, ``Vortex Flow Structure and Heat Transfer over a Heated Cylinder Oscillating in Crossflow Direction,” ASME Journal of Heat Transfer, Vol. 121, pp.789-795 (1999). (EI, SCI)
33. C. Gau and I. C. Lee, ``Flow and Impingement Cooling Heat Transfer Along Triangular Rib-Roughened Walls," International Journal of Heat and Mass Transfer, Vol. 43, No. 24, pp.4405-4418, (2000). (EI, SCI, impact factor 1.22)
34. C. Gau, Y. C. Jeng and C. G. Liu, ``An Experimental Study of Mixed Convection in a Horizontal Channel Heated from a Side," ASME Journal of Heat Transfer, Vol. 122, Nov. pp.701-707, (2000). (EI, SCI, impact factor 1.22)
35. C. W. Liu and C. Gau, ``Onset of Secondary Flow and Heat Transfer Enhancement in Horizontal Convergent and Divergent Channels Heated from Below," Transaction of the Aeronautical and Astronautical Society of the Republic of China, Vol. 32, No. 3, pp.251-257, (2000). (EI)
36. C. Gau Y. J. Yang and H. R. Chen, ``Heat Transfer Enhancement of Swirling Flow in a Convergent Pipe," Journal of Chinese Society of Mechanical Engineer, Vol. 22, No. 2, pp.121-129, (2001). (EI)
37. C. Gau, S. X. Wu and H. S. Su, ``Synchronization of Vortex Shedding and Heat Transfer Enhancement over a Heated Cylinder Oscillating with Small Amplitude in Streamwise Direction," ASME Journal of Heat Transfer, Vol. 123, No. 6, pp.1139-1148 (2001). (EI, SCI)
38. H. R. Chen, C. Gau, B. T. Dai and M. S. Tsai, “A Novel Planarization Process for Sacrificial Polysilicon Layers in a Micro-Thermal System,” Sensors and Actuators A: Physical, Vol. 108/1-3, Nov. pp.86-90 (2003). (EI, SCI, impact factor: 1.462)
39. H. R. Chen, C. Gau, B. T. Dai and M. S. Tsai, “A Monolithic Fabrication Process for a Micro-Flow Heat Transfer Channel Suspended over an Air Layer with Arrays of Micro Sensors and Heaters,” Sensors and Actuators A: Physical, Vol. 108/1-3, Nov. pp.81-85 (2003). (EI, SCI, impact factor: 1.462)
40. C. Gau and C. W. Liu, ``Fabrication Development of Micro-Liquid Flow Channel and Thermal-Flow Transport Phenomenon,” Engineering Science and Technology Bulletin of NSC, Vol. 68, pp.121-124, 2003. (in Chinese)
41. C. W. Liu, C. Gau and B. T. Dai, ``Design and Fabrication Development of a Micro Flow Heated Channel with Measurements of the inside Micro-Scale Flow and Heat Transfer Process,” Biosensors and Bioelectronics, Vol. 20, No. 1, pp.91-101, 2004. (EI, SCI, Impact factor: 3.251)
42. C. H. Shen and C. Gau, ``Thermal Chip Fabrication with Arrays of Sensors and Heaters for Micro-Scale Impingement Cooling Heat Transfer Analysis and Measurements,” Biosensors and Bioelectronics, Vol. 20, No. 1, pp.103-114, 2004. (EI, SCI, impact factor: 3.251)
43. C. H. Shen and C. Gau, ``Heat Exchanger Fabrication with Arrays of Sensors and Heaters with Its Micro-Scale Impingement Cooling Process Analysis and Measurements,” Sensors and Actuators A: Physical, Vo. 114, pp.154-162, 2004. (EI, SC, impact factor: 1.462)
44. C. W. Liu and C. Gau, ``Onset of Secondary Flow and Enhancement of Heat Transfer in Horizontal Convergent and Divergent Channels Heated from Below,” International Journal of Heat and Mass Transfer, Vol. 47, pp. 5427-5438, 2004. (EI, SCI, impact factor: 1.22)
45. C. W. Liu, C. Gau, C. G. Liu and C. S. Yang, ``Design Consideration and Fabrication of a Microchannel System Containing a Set of Heaters and an Array of Temperature Sensors,” Sensors and Actuators A: Physical, Vol. 122, Issue 2, pp.177-183, 2005. (EI, SCI, impact factor: 1.462)
46. J. H. Su, C. Gau and C. S. Yang, ``Enhancement of Heat Transfer over a Cylinder by Acoustic Excitation,” AIAA Journal of Thermophysics and Heat Transfer, Vol. 20, No. 2, pp. 256-266, 2006 (EI, SCI, impact factor: 0.663).
47. C. W. Liu, C. Gau, H. S. Ko, C. S. Yang and B. T. Dai, “Fabrication Challenges for a Complicated Micro-flow Channel System at Low Temperature Process,” Sensors and Actuators A: Physical, Vol. A 130-131, Aug., pp.575-582, 2006. (EI, SCI, impact factor: 1.462).
48. C. Gau and C. W. Liu, “Fabrication of Microchannel for Liquid Flow and Micro-Scale Heat transfer Process,” Engineering Science and Technology Bulletin of NSC, Vol. 84, pp.76-80, 2006. (in Chinese)
49. C. S. Yang, C. L. Kung and C. Gau, “Heat Transfer Process Under a Film-Cooled Surface with Presence of Weak Swirling Flow in the Mainstream,” Experimental Thermal and Fluid Science, Vol. 32, pp.632-640, 2007. (EI, SCI)
50. C. Y. Kuo, C. L. Chan, C. Gau, C. W. Liu, S. H. Hsiau, S. H. Ting, “Nano Temperature Sensor Using Selective Lateral Growth of Carbon Nanotube Between Electrodes,” IEEE Transactions on Nanotechnology, Vol. 6, No. 1, pp. 63-69, 2007. (EI, SCI, impact factor: 2.112)
51. H.S. Ko, C. W. Liu, C. Gau and C. S. Yang, “Fabrication and design of a heat transfer micro channel system at low temperature MEMS technique,” Journal of of Micromechanics and Microengineering, Vol. 17, pp.983-993 2007. (EI, SCI, impact factor 2.449)
52. S. H. Shiau, C. Y. Kuo, C. Gau C. W. Liu, C. H. Lin, “Enhancement of Conductivity for PET Matrix Reinforced with Carbon Nanotubes,” Japanese Journal of Applied Physics, Vol. 46, No. 9B, pp.6335-6338, 2007 (EI, SCI, impact factor 1.222).
53. C. W. Liu, C. Y. Kuo, C. P. Wang, S. H. Shiau, C. Gau, B. T. Dai, “Low Temperature Synthesis of Single Crystalline Silicon Nanowires Using Anodic Aluminum Oxide Template,” Japanese Journal of Applied Physics, Vol. 46, No. 9B, pp.6343-6345, 2007. (EI, SCI, impact factor 1.222).
54. H. S. Ko, C. W. Liu and C. Gau, “Micro Pressure Sensor Fabrication without Problem of Stiction for a wider range of Measurement,” Sensors and Actuators A: Physical Vol. 138, pp.261–267, 2007 (EI, SCI, impact factor 1.363).
55. H. S. Ko, C. W. Liu and C. Gau, “A Novel Fabrication for Pressure Sensor with Polymer Material and Evaluation of Its Performance,” Journal of Micromechanics and Microengineering, Vol. 17, pp.1640-1648, 2007 (EI, SCI, impact factor 2.449).
56. C. S. Yang, C. L. Lin and C. Gau, “Film Cooling Performance and Heat Transfer over an Inclined Film-Cooled Surface,” AIAA Journal of Thermophysics and Heat Transfer, Vol. 22, No. 3, pp.485-492, 2008. (EI, SCI)
57. Chih-Sheng Yang, C. L. Lin and C. Gau, ““Film Cooling Performance and Heat Transfer over an Inclined Film-Cooled Surface at Different Divergent Angles with Respect to Highly Turbulent Mainstream,” Experimental Thermal and Fluid Science, Vol. 32, No. 6, pp 1313-1321, 2008 (EI, SCI).
58. S H Shiau, C W Liu, C Gau, B T Dai, “Growth of Single Wall Carbon Nanotube Film and its Patterning as n-type Field Effect Transistor Device with Integrated Circuit Compatible Process,” Nanotechnology 19 (2008) 105303 (7pp). (EI, SIC, IF=3.037, 2/67)
59. S. H Shiau, C W Liu, C Gau, B T Dai, “Characterization of an as Grown n-type SWNTs Film, to appear in Nanotechnology 2008 (SCI, IF=3.037)
60. H. S. Ko, C. W. Liu, C. Gau and D. Z. Jeng, “Flow Characteristics in a Microchannel System Integrated with Arrays of Micro Pressure Sensors Using Polymer Material,” Journal of Micromechanics and Microengineering, 18 art no. 075016, 2008 (SCI, IF=2.449)
61. C. Y. Kuo, W. C. Tang, C. Gau, T. F. Guo, D. Z. Jeng, “Ordered Bulk Heterojunction Solar Cells with Vertically Aligned TiO2 Nanorods Embedded in a Conjugated Polymer,” Applied Physics Letters, Vol. 93, No. 3, art no. 033307, 2008 (SCI, IF=3.9) also been selected published in Virtual Journal of Nanoscale Science & Technology, Vol. 18, No. 5, Aug., 4, 2008.
62. C. S. Yang, C. L. Lin and C. Gau, “Film Cooling Performance and Heat Transfer over an Inclined Film-Cooled Surface at Different Convergent Angles with Respect to Highly Turbulent Mainstream,” Applied Thermal Engineering, Vol. 29, Jan., pp. 167-177, 2009. (EI, SCI, IF=1.349, 27/105).
63. C. S. Yang, C. G. Liu and C. Gau, “Study of Channel Divergence on the Flow and Heat Transfer in Horizontal Ducts Heated from a Side,” International Journal of Thermal Sciences, Vol. 48, Issue 1, pp. 105-113, 2009. (EI, SCI, IF=1.683, 11/105).
64. D. Z. Jeng, C. S. Yang, and C. Gau, “Experimental and Numerical Study of Transient Natural Convection Due to Mass Transfer in Inclined Enclosures,” International Journal of Heat and Mass Transfer, Vol. 52, No. 1, pp. 181–192, 2009. (SCI, IF=1.894, 9/105).
65. C. S. Yang, D. Z. Jeng, K. A. Yih, C. Gau and Win Aung, “Numerical and Analytical Study of Reversed Flow and Heat Transfer in a Heated Vertical Duct,” ASME Journal of Heat Transfer, Vol. 131, Issue 7, art No. 072501, 2009 (EI, SCI, IF=1.421, 21/105)
66. C. S. Yang, D. Z. Jeng, U. H.. Tang, C. Gau, “Flow and Heat Transfer of Natural Convection in Horizontal Annulus with a Heating Element on Inner Cylinder,” ASME Journal of Heat Transfer, Vol.131, Issue 8, art No. 082502, 2009 (EI, SCI, IF=1.421, 21/105)
67. P. L. Li, H. S. Ko, D. Z. Jeng and C. Gau, “Performance Evaluation of a Micro Film Cooling Process in a Micro Film-Cooled Device Fabricated by MEMS,” to be published in Journal of Aeronatuics and Astronautics B, 2009 (EI)
68. Chie Gau, Shuo-Ying Chen, Hsin-Luen Tsai, Syh-Tsang Jenq, Cheng-Ching Lee,Yu-Der Chen and Ting-Hua Chien, “Synthesis of Functionalized Carbon Nanotubes/Phenolic Nano-Composites and Its Electrical and Thermal Conductivity Measurements”, Japanese Journal of Applied Physics, Vol. 48, No. 6, 06FF10, 2009 (IF=1.309, 49/95).
69. Chie Gau, H. S. Ko and H. T. Chen, “Piezoresistive Characteristics of MWNTs Nanocomposites and Fabrication as Polymer Pressure Sensor,” Nanotechnology, 20, No. 18, art no. 185503, 2009 (SCI, IF=3.446, 3/68).
70. C. Y. Kuo and C. Gau, “Arrangement of band structure for organic-inorganic photovoltaics embedded with silicon nanowire arrays grown on indium tin oxide glass,” Applied Physics Letters, Vol. 95, art no. 053302, 2009 (SCI, IF=3.726, 10/95); also been selected published in APL: Organic Electronics and Photonics, Aug. 2009..
71. P. L. Li, H. S. Ko, D. Z. Jeng, C. W. Liu and C. Gau, “Micro Film Cooling Performance,” to appear in International Journal of Heat and Mass Transfer, 2009 (IF=1.894, 9/105).
72. C. Gau, C. H. Shen and Z. B. Wang, “Peculiar Phenomenon of Micro-Free-Jet Flow,” Physics of Fluids, Vol. 21, No. 9, art no. 092001, 2009 (IF=1.738, 23/112).
73. Chun-Rong Lin, Yu-Jhan Siao, Shin-Zong Lu, and Chie Gau, “Magnetic Properties of Iron Selenide Nanocrystals Synthesized by the Thermal Decomposition,” IEEE Transactions on Magnetics, Vol. 45, No. 10, October 2009
74. C Gau, Cheng-Yung Kuo, H. S. Ko, “Electron tunneling in carbon nanotube composites,” Nanotechnology, Vol. 20, No. 39, art no. 395705, 2009. (IF=3.447, 3/68)
75. H. S. Ko and C. Gau, “Bonding of a complicated polymer microchannel system for study of pressurized liquid flow characteristics with electric double layer effect,” to appear in Journal of Micromechanics and Microengineering, 2009 (IF=2.233, 12/112 im mechanics)


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