徐振哲 教授 / Cheng-Che(Jerry) Hsu Professor

Index
徐振哲 教授
Cheng-Che(Jerry) Hsu
電話(02)3366-3034
傳真(02)23623040
電子郵件 chsu@ntu.edu.tw
辦公室:215A
研究室資料

電漿工程研究室

302, 304
(02)3366-9751
  • 學經歷

國立台灣大學 化工學士,1996
國立台灣大學 化工碩士,1998
加州大學柏克萊分校 化工博士,2006

  • 研究主題

電漿系統與電漿技術之研究與開發
我的研究致力於開發創新的電漿系統與電漿製程,涵蓋低壓電漿、常壓電漿與水溶液中之電漿等多種電漿,其中包括可攜式電漿系統、微電漿、紙片式系統等數種創新概念。應用的製程則包含於能源、材料與表面處理等適用於工業、實驗室或現地使用之製程。

  • 最新研究

1.大氣電漿的檢測與數值模擬及其在奈米粉體製程上的應用 (Diagnostic Study and Numerical Simulation of Atmospheric Pressure Plasmas and the Applications to Nanoparticle Fabrication) 國科會NT 1,066,000, 08/01/2009-07/31/2010

2.常壓中空陰極電極特性模擬研究(Simulation of Atmospheric Pressure Hollow Cathode Plasmas) 行政院原委會核研所 NT 500,000, 04/01/2009~12/31/2009

  • 榮譽獎項
  1. 李欣潔、楊曜禎同學/指導教授徐振哲教授2011 AVS International Plasma Workshop on Processing and Characterization of Advanced Materials (best poster paper award), 2011/3/22-25
  2. 張鴻文同學/指導教授徐振哲教授台灣化學工程學會58週年年會博士班研究生英文專題報告競賽第一名, 2011/11/25-26
  3. 楊曜禎同學/指導教授徐振哲教授台灣化學工程學會58週年年會博士班研究生英文專題報告競賽第二名, 2011/11/25-26
  4. 李欣潔、張詩敏、斐爾文同學/指導教授吳乃立教授、徐振哲教授台灣化學工程學會58週年年會壁報論文競賽材料在化工上的應用組佳作, 2011/11/25-26.
  5. 張鴻文/指導教授徐振哲教授, Coburn and Winter Student Award Finalist American Vacuum Society, Plasma Science and Technology Division, American Vacuum Society 59th annual symposium, Tampa USA, 2012/10/28-2012/11/2.
  6. 楊曜禎/指導教授徐振哲教授, Coburn and Winter Student Award Finalist American Vacuum Society, Plasma Science and Technology Division, American Vacuum Society 60th annual symposium, Long Beach USA, 2013/10/27-2013/11/1.
  7. 楊曜禎/指導教授徐振哲教授,最佳海報,2013台灣化學工程學會60週年年會暨國科會化學工程學門成果發表會, 2013/11/22-23.
  8. 高鵬凱/指導教授徐振哲教授,最佳海報,2013台灣化學工程學會60週年年會暨國科會化學工程學門成果發表會, 2013/11/22-23.
  9. 楊曜禎/指導教授徐振哲教授,Best Oral Paper Award,2013,8th Asia Pacific International Symposium on the Basics and Applications of Plasma Technology, Hsinchu, Taiwan, Dec. 2013
  10. 台灣大學「教學優良獎」2013
  11. 臺灣大學103學年度教學傑出獎 2015
  12. 研究團隊獲第十五屆「光寶創新獎」銀賞 2015
  1. J. Z. Chen, W. Y. Liao, W. Y. Hsieh, C. C. Hsu, and Y. S. Chen, “All-vanadium redox flow batteries with graphite felt electrodes treated by atmospheric pressure plasma jets”, Journal of Power Sources, 274, 894 (2015). (SCI, EI)
  2. W. Y. Liao, Y. J. Yang, C. M. Hsu, C. C. Hsu, I. C. Cheng, and J. Z. Chen, “Atmospheric-pressure-plasma-jet sintered dual-scale porous TiO2 using an economically favorable NaCl solution,” Journal of Power Source, 281, 252 (2015). (SCI,EI)
  3. T. J. Wu, C. Y. Chou, C. M. Hsu, C. C. Hsu, J. Z. Chen, and I. C. Cheng, “Ultrafast synthesis of continuous Au thin films from chloroauric acid solution using an atmospheric pressure plasma jet,” RSC Advances, 5, 99654, (2015) (SCI,EI)
  4. C. Y. Chou, H. M. Chang, H. W. Liu, Y. J. Yang, C. C. Hsu, I. C. Cheng, and J. Z. Chen, “Atmospheric-pressure-plasma-jet processed nanoporous TiO2 photoanodes and Pt counter-electrodes for dye-sensitized solar cells,” RSC Advances, 5, 45662, (2015) (SCI,EI)
  5. H. T. Chien, M. C. Chen, P. S. Huang, J. Y. Lai, C. C. Hsu, and D. Y. Kang, “Reactive Atmospheric Pressure Plasma for Highly Efficient Removal of Structure-Directing Agents from Zeolite Thin Films,” Chemical Communications, 51, 13910, (2015). (SCI,EI)
  6. Y. H. Jiang, P. K. Kao, J. C. He, I. C. Chiu, Y. J. Yang, Y. H. Wu, C. C. Hsu, I. C. Cheng, and J. Z. Chen, “Optoelectronic properties of infrared rapid-thermal-annealed SnOx thin films” Ceramic International, 41, 13502 (2015) (SCI,EI)
  7. G. W. Lin, Y. H. Jiang, P. K. Kao, I. C. Chiu, Y. H. Wu, C. C. Hsu, I. C. Cheng, and J. Z. Chen, “Nitrogen Atmospheric-Pressure-Plasma-Jet Induced Oxidation of SnOx Thin Films,” Plasma Chemistry and Plasma Processing, 35, 979 (2015). (SCI,EI)
  8. J. Z. Chen, C. Wang, C. C. Hsu, and I. C. Cheng, “Ultrafast synthesis of carbon-nanotube counter electrodes for dye-sensitized solar cells using an atmospheric-pressure plasma jet,” Carbon, 98, 34, (2016). (SCI,EI)
  9. C. H. Xua, P. W. Shen, Y. F> Chiu, P. W. Yeh, C. C. Chen, L. C. Chen, C C. Hsu, I. C. Cheng, and J. Z. Chen, “Atmospheric pressure plasma jet processed nanoporous Fe2O3/CNT composites for supercapacitor application”, Journal of Alloys and Compounds, 676, 469, (2016)
  10. T. H. Wan, Y. F. Chiu, C. W. Chen, C. C. Hsu, I. C. Cheng, and J. Z. Chen, “Atmospheric-Pressure Plasma Jet Processed Pt-Decorated Reduced Graphene Oxides for Counter-Electrodes of Dye-Sensitized Solar Cells,” Coatings, 6, 44, (2016).
  11. L. K. Yeh, J. C. Luo, M. C. Chen, C. H. Wu, J. Z. Chen, I. C. Cheng, C. C. Hsu, and W. C. Tian, “Photoactivated Gas Detector for Toluene Sensing at Room Temperature Based on New Coral-Like ZnO Nanostructure Arrays”, Sensors 16, 1820, (2016).
  12. C. H. Yang, F. H. Kuok, C. Y. Liao, T. H. Wan, C. W. Chen, C. C. Hsu, I. C. Cheng, J. Z. Chen, “Flexible reduced graphene oxide supercapacitor fabricated using a nitrogen dc-pulse atmospheric-pressure plasma jet." Materials Research Express, 4 025504 (2017).
  13. Kuok, F.-H., K.-Y. Kan, I.-S. Yu, C.-W. Chen, C.-C. Hsu, I. C. Cheng and J.-Z. Chen, “Application of atmospheric-pressure plasma jet processed carbon nanotubes to liquid and quasi-solid-state gel electrolyte supercapacitors." Applied Surface Science 425(Supplement C): 321 (2017).
  14. Liao, C.-Y., F.-H. Kuok, C.-W. Chen, C.-C. Hsu and J.-Z. Chen, “Flexible quasi-solid-state SnO2/CNT supercapacitor processed by a dc-pulse nitrogen atmospheric-pressure plasma jet." Journal of Energy Storage 11(Supplement C): 237 (2017).
  15. Wan, T.-H., C.-C. Lee, C.-W. Chen, C.-C. Hsu, I.-C. Cheng and J.-Z. Chen, “A Comparison Study of Furnace and Atmospheric-Pressure-Plasma Jet Calcined Pt-Decorated Reduced Graphene Oxides for Dye-Sensitized Solar Cell Application." Journal of The Electrochemical Society 164, H931 (2017).
  16. Yang, C.-H., C.-W. Chen, Y.-K. Lin, Y.-C. Yeh, C.-C. Hsu, Y.-J. Fan, I.-S. Yu and J.-Z. Chen, “Atmospheric-Pressure Plasma Jet Processed Carbon-Based Electrochemical Sensor Integrated with a 3D-Printed Microfluidic Channel." Journal of The Electrochemical Society 164, B534 (2017).
  17. J. H. Tsai, I. C. Cheng, C. C. Hsu, and J. Z. Chen, “DC-pulse atmospheric-pressure plasma jet and dielectric barrier discharge surface treatments on fluorine-doped tin oxide for perovskite solar cell application." Journal of Physics D: Applied Physics 51, 025502 (2018).
  18. Chien, H.-H., C.-Y. Liao, Y.-C. Hao, C.-C. Hsu, I. C. Cheng, I.-S. Yu and J.-Z. Chen, “Improved performance of polyaniline/reduced-graphene-oxide supercapacitor using atmospheric-pressure-plasma-jet surface treatment of carbon cloth." Electrochimica Acta 260, 391 (2018).
  19. Lee, C.-C., T.-H. Wan, C.-C. Hsu, I. C. Cheng and J.-Z. Chen, “Atmospheric-pressure plasma jet processed Pt/ZnO composites and its application as counter-electrodes for dye-sensitized solar cells." Applied Surface Science 436, 690, (2018).
  20. K. Y. Huang, H.-Y. Chi, P.-K. Kao, F.-H. Huang, Q.-M. Jian, I. C. Cheng, W.-Y. Lee, C.-C. Hsu, and D.-Y. Kang, “Atmospheric Pressure Plasma Jet-Assisted Synthesis of Zeolite-Based Low-k Thin Films." ACS Applied Materials & Interfaces, in press.