跳到主要內容區塊
聯合大學材料工程學系 聯合大學材料工程學系

許芳琪教授兼系主任-詳細資料

個人資料

 

  • 姓名:許芳琪
  • 職稱:教授兼系主任
  • 專長:光電材料、有機電子元件、電子傳輸原理、太陽能電池
  • 辦公室電話:037-382238
  • 電子信箱 :fangchi@nuu.edu.tw
  • 傳真機:037-382247
  • 學歷:美國俄亥俄州立大學(Ohio State University) 物理學博士 (2005)

學歷

 

  • 美國俄亥俄州立大學 (Ohio State University) 物理學博士 (1999 – 2005)
  • 國立臺灣大學 物理學碩士 (1997 – 1999)
  • 國立臺灣大學 物理學學士 (1993 – 1997)

經歷

 

  • 02,2013 ~ 迄今 國立聯合大學材料科學與工程學系 副教授
  • 02,2009 ~ 02, 2013 國立聯合大學材料科學與工程學系 助理教授
  • 04,2007 ~ 01, 2009 國立台灣大學材料科學與工程學系 博士後
  • 07,2006 ~ 02, 2007 美國萊斯大學(Rice University) 物理系 博士後
  • 10,2005 ~ 06, 2006 美國俄亥俄州立大學物理物理系 博士後

開設課程

 

  • 量子物理導論、 固態物理、 高分子概論、 高分子物理、 光電材料與元件、 先進材料、 材料科學導論(二)、 普通物理實驗(一)、 普通物理實驗(二)、 物性量測實驗

專長及研究領域

主要研究方向

 

  • 1. 導電高分子之電荷傳輸機制(包含光、電、磁)
  • 2. 可撓式、可拉伸之電晶體、記憶體、太陽能電池元件的開發
  • 3. 新穎有機-無機奈米材料混摻之薄膜太陽能電池的開發
  • 4. 天然生物材料應用於光、電元件的開發

研究計畫

 

  • 1. 自民國 98 年06 月01日~ 民國101 年7 月31 日高效能混摻太陽能元件的研究與開發 (國科會三年期計畫NSC 98-2112-M-239 -001 -MY3)
  • 2. 自民國 101 年08 月01日~ 民國102 年7 月31 日 利用微觀型貌的雕塑開發高效率之混摻型太陽能電池 (國科會計畫NSC 101-2112-M-239-001 )
  • 3. 自民國 102 年08 月01日~ 民國105 年7 月31 日 高分子複合材料光、電性質的研究與能量轉換元件的應用(國科會計畫NSC 102 - 2112 - M - 239 - 001 - MY3)

重要著作

一、期刊論文

 

  • 1. Jhong-Yao Wang, Fang-Chi Hsu*, Jeng-Yeh Huang, Leeyih Wang*, Yang-Fang Chen*, “Bi-functional polymer nanocomposites as hole transport layers for highly efficient perovskite solar cells”, ACS Appl. Mater. Interfaces (2015) (in revision). (MOST 102 - 2112 - M - 239 - 001 - MY3)
  • 2. Yun-Ming Sung, Ying-Chih Lai, Ming-Fong Tsai, Philander Penn Wei, Chen-Sheng Yeh, Fang-Chi Hsu*, and Yang-Fang Chen*, “Broad band plasmonic nanomaterials for high performance solar cells”, J. Mater. Chem. C (2015) (in revision). (MOST 102 - 2112 - M - 239 - 001 - MY3)
  • 3. Shih-Hao Cheng, Yi-Sheng Liu, Chuan-Tsung Su, Wei-Chun Tan, Fang-Chi Hsu*, Tai-Yuan Lin, and Yang-Fang Chen.*,“Effect of well-oriented nanorod array on flexible polymer solar cells under mechanical bending”, AIP Advances (2015) (in revision). (MOST 102 - 2112 - M - 239 - 001 - MY3)
  • 4. Fang-Chi Hsu, Heli Jantunen, Chi-Shiung Hsi, Hsing-I Hsiang, Min-Yu Yang, Chi-Wei Chang, “Multilayer Low temperature Co-Fired M-type Barium Hexaferrites and BaO*(Nd1-xBix)2O3•4TiO2 Dielectric Ceramics”, Ceramics International 41,12401– 12406 (2015). [SCI, IF = 2.504]
  • 5. Hsing-Hwa Hsieh, Yun-Ming Sung, Fang-Chi Hsu*, Kuo-Jui Hsiao, Ya-Ju Lee, and Yang-Fang Chen*,“Giant enhancement of inverted polymer solar cells efficiency by manipulating dual interlayers with integrated approaches”, RSC Adv. 5 (2), 1549 – 1556 (2015). [SCI, IF = 3.907]. (MOST 102 - 2112 - M - 239 - 001 - MY3)
  • 6. Chiang-Ting Chen, Fang-Chi Hsu*, Jeng-Yeh Huang, Chi-Yuan Chang, Tsung-Yuan Chang, Hsiu-Mei Lin, Tai-Yuan Lin, and Yang-Fang Chen*, “Effects of a thermally stable chlorophyll extract from diatom algae on surface textured Si solar cells ”, RSC Adv. 5 (44), 35302 – 35306 (2015). [SCI, IF = 3.907] (MOST 102 - 2112 - M - 239 - 001 - MY3).
  • 7. Yun-Ming Sung, Fang-Chi Hsu*, and Yang-Fang Chen*, “Improved charge transport in inverted polymer solar cells using surface engineered ZnO-nanorod array as an electron transport layer”, Sol. Energy Mater. Sol. Cells 125, 239 – 247 (2014). [SCI, IF = 5.755] (MOST 102 - 2112 - M - 239 - 001 - MY3)
  • 8. Chiang-Ting Chen, Fang-Chi Hsu*, Cheng-Hung Li, Chia-Chun Chen, and Yang-Fang Chen*, “Magnetic-field annealing of inverted polymer:fullerene hybrid solar cells with FePt nanowires as additive”, Appl. Phys. Lett.103, 253305 (2013). [SCI, IF = 3.302] (NSC 102 - 2112 - M - 239 - 001 - MY3)
  • 9. Ying-Chih Lai, Fang-Chi Hsu, Jian-Yu Chen, Jr-Hau He, Ting-Chang Chang, Ya-Ping Hsieh, Tai-Yuan Lin, Ying-Jay Yang and Yang-Fang Chen*, “Transferable and flexible label-like macromolecular memory on arbitrary substrates with high performance and a facile methodology” Adv. Mater. 25, 2733 – 2739 (2013) [SCI, IF = 17.493]
  • 10. Ying-Chih Lai, Di-Yan Wang, I-Sheng Huang, Yu-Ting Chen, Yung-Hsuan Hsu, Tai-Yuan Lin, Hsin-Fei Meng, Ting-Chang Chang, Ying-Jay Yang, Chia-Chun Chen, Fang-Chi Hsu, and Yang-Fang Chen*,“Low operation voltages macromolecular composite memory assisted by graphene nanoflakes,” J. Mater. Chem. C 1, 552 - 559 (2013) [SCI, IF = 4.696]
  • 11. Chiang-Ting Chen, Fang-Chi Hsu*, Yun-Ming Sung, Hsueh-Chung Liao, Wei-Che Yen, Wei-Fang Su and Yang-Fang Chen*, “Effects of metal-free conductive oligomer as a surface modifier in hybrid polymer/ZnO solar cells,” Sol. Eng. Mater. Sol. Cells 107, 69–74 (2012). [SCI, IF = 5.755] (NSC 98-2112-M-239-001-MY3 and NSC 101-2112-M-239-001).
  • 12. Chun-Shiang Wu, Chi-Shiung Hsi, Fang-Chi Hsu*, Moo-Chin Wang, Yung-Sheng Chen, “Magnetism and thermal induced characteristics of Fe2O3 content bioceramics,” J. Mag. Mag. Mater. 324, 3918–3923 (2012). [SCI, IF = 1.979] (NSC 98-2112-M-239-001-MY3).
  • 13. Jian-Yu Chen, Fang-Chi Hsu*, Yun-Ming Sung, and Yang-Fang Chen, ”Enhanced charge transport in hybrid polymer/ZnO-nanorod solar cells assisted by conductive small molecules,” J. Mater. Chem. 22 (31), 15726–15731(2012). [SCI, 2014 IF = 6.626]. (NSC 98-2112-M-239-001-MY3).
  • 14. Yun-Ming Sung, Fang-Chi Hsu*, Chiang-Ting Chen, Wei-Fang Su and Yang-Fang Chen,* “Enhanced photocurrent and stability of inverted polymer/ZnO-nanorod solar cells by 3-hydroxyflavone additive,” Sol. Eng. Mater. Sol. Cells 98, 10 –109 (2012). [SCI, IF = 5.755] (NSC 98-2112-M-239-001-MY3).
  • 15. Yun-Ming Sung, Fang-Chi Hsu*, Di-Yan Wang, I-Sheng Wang, Chia-Chun Chen, Hsueh-Chung Liao, Wei-Fang Su, and Yang-Fang Chen*, ” Enhanced charge extraction in inverted hybrid photovoltaic cells assisted by graphene nano-flakes,“ J. Mater. Chem. 21, 17462–17461 (2011). [SCI, 2014 IF=6.626] (NSC 98-2112-M-239-001-MY3).
  • 16. Chi-Shiung Hsi, Mei Yu Chen, Heli Jantunen, Fang-Chi Hsu*, and Tzu-Chin Lin, “Sintering of titanate based dielectrics doped with lithium fluoride and calcium borosilicate glass,” Materials Science–Poland 29(1), 29–34 (2011). [SCI, IF = 0.519]
  • 17. C. T. Chen, F. C. Hsu*, S. W. Kuan, and Y. F. Chen*, “The Effects of C60 on ZnO-nanorod surface in organic-inorganic hybrid photovoltaics,” Sol. Energy Mater. Sol. Cells 95, 74–744 (2011). [SCI, IF = 5.755] (NSC 98-2112-M-239-001-MY3)
  • 18. F. C. Hsu*, C. T. Chen, Y. M. Sung, and Y. F. Chen, “Performance Enhancement in Organic-inorganic Hybrid Photovoltaic Cells by Adding a Carbon-nanostructure Interface Layer,” Proceedings, IEEE 37th Photovoltaic Specialist Conference, 000716 – 000718. (2011) (NSC 98-2112-M-239-001-MY3).
  • 19. T. W. Zeng, I. S. Liu, F. C. Hsu, K. T. Huang, H. C. Liao, and W. F. Su*, “Effects of bifunctional linker on the performance of P3HT/CdSe quantum dot-linker-ZnO nanocolumn photovoltaic device,” Optics Express 18, A357–A365 (2010). [SCI, IF = 3.488]
  • 20. T. W. Zeng, F. C. Hsu, Y. C. Tu, T. H. Lin, and W. F. Su*, “Kelvin Probe Force Microscopy study on hybrid P3HT:Titanium dioxide nanorod materials,” Chem. Phys. Lett. 479, 105 (2009). [SCI, IF = 1.963].
  • 21. V. N. Prigodin, F. C. Hsu, J. H. Park, O. Waldmann, and A. J. Epstein*, “Electron-ion interaction in doped conducting polymers,” Phys. Rev. B. 78, 035203-1 – 035209-9 (2008). [SCI, IF = 3.583]
  • 22. F. C. Hsu, Y. C. Huang, Y. C. Liao, J. H. Hsu, W. C. Yen, C. W. Chen, and W. F. Su*, “Charge transport properties of low temperature solution processable poly(3-hexylthiophene)/surface modified TiO2 bulk heterojunction systems,” Proceedings, SPIE Conference on Organic Photovoltaics IX 7052, 705219-1– 705219-7 (2008).
  • 23. F. C. Hsu, V. N. Prigodin, and A. J. Epstein, “Electric-Field Controlled Conductance of “Metallic” Polymers in a Transistor Structure,” Phys. Rev. B 74, 235219 (2006). [SCI, IF = 3.583]
  • 24. V. N. Prigodin, F. C. Hsu, Y. M. Kim, J. H. Park, O. Waldmann, and A. J. Epstein, “Electric field control of charge transport in doped polymers,” Synth. Met. 153, 157 (2005). [SCI, IF= 2.244]
  • 25. A. J. Epstein, J. H. Park, Y. Kim, F. C. Hsu, N. R. Chiou, O. Waldmann, and V. N. Prigodin, Control of conducting polymer properties with electric fields, Polymer Preprints 45, 149 (2004).
  • 26. A. J. Epstein, F. -C. Hsu, N. -R. Chiou, and V. N. Prigodin, “Doped conducting polymer-based field effect devices,” Synth. Met. 137, 859 (2003). [SCI, IF= 2.244]
  • 27. A. J. Epstein, F. C. Hsu, N. R. Chiou, O. Waldmann, J. H. Park, Y. Kim, and V. N. Prigodin, Electric-field effect devices based on doped conducting polymers, Proceedings, SPIE Conference on Organic Field Effect Transistors II, 5217, 141 (2003).
  • 28. A. J. Epstein, F. C. Hsu, N. R. Chiou, and V. N. Prigodin, “Electric-field induced ion-leveraged metal–insulator transition in conducting polymer-based field effect devices,” Curr. Appl. Phys. 2, 339 (2002). [SCI, IF= 2.184]

二、研討會發表

 

  • 1. Fang-Chi Hsu*, Yun-Ming Sung, Yang-Fang Chen, Improved Charge Transport in Polymer Solar Cells with Thioaromatic Molecules Engineered Electron Transport Layer, Material Research Society Spring Meeting, San Francisco, CA USA. April 6 – April 10 (2015). (MOST102 - 2112 - M - 239 - 001 - MY3).
  • 2. 黃政曄, 楊旻翰, 許芳琪,電洞傳輸層特性對CH3NH3PbI3太陽能電池性能之影響,Annual Meeting of the Physical Society of the Republic of China, Hsinchu, Taiwan Jan. 28– 30 (2015). (MOST 102 - 2112 - M - 239 - 001 - MY3).
  • 3. Fang-Chi Hsu*, Chiang-Ting Chen, Cheng-Hung Li, Chia-Chun Chen, and Yang-Fang Chen, “ The Application of a Magnetic Field to Improve Polymer:fullerence Solar Cell Performance”, Photovoltaic Specialist Conference, Denver, CO USA, Jun. 8 – 13 (2014). (NSC 102 - 2112 - M - 239 - 001 - MY3)
  • 4. Chiang-Ting Chen, Fang-Chi Hsu*, Cheng-Hung Li, Chia-Chun Chen, and Yang-Fang Chen*, “The Improved Polymer Bulk Heterojunction Photovoltaic Performance by the Application of a Magnetic Field”, Annual Meeting of the Physical Society of the Republic of China, Taichung, Taiwan Jan. 21 – 23 (2014). (NSC 102 - 2112 - M - 239 - 001 - MY3)
  • 5. Ying-Chih Lai, Jian-Yu Chen, Fang-Chi Hsu, Ya-Ping Hsieh, Ying-Jay Yang and Yang-Fang Chen*, “ Post-it Organic Digital Information Storage Devices,“Annual Meeting of the Physical Society of the Republic of China, Taichung, Taiwan Jan. 21 – 23 (2014). (NSC 102 - 2112 - M - 239 - 001 - MY3) (海報佳作)
  • 6. Jian-Yu Chen, Fang-Chi Hsu*,Yun-Ming Sung, and Yang-Fang Chen, “Improved Inverted Polymer/ZnO-nanorod Photovoltaic Performance by Conductive Small Molecules,” Annual Meeting of the Physical Society of the Republic of China, Taichung, Taiwan Jan. 21 – 23 (2014). (NSC 102 - 2112 - M - 239 - 001 - MY3) (海報佳作)
  • 7. Fang-Chi Hsu*,Yun-Ming Sung, and Yang-Fang Chen, “Balanced Charge Transport in Inverted Hybrid Polymer/ZnO Solar Cells Through Interfacial Modification ,“ 23rd International Conference on Photovoltaic Science and Engineering (PVSEC-23), Taipei Taiwan , Oct. 28 – Nov. 1 (2013) (NSC 102 - 2112 - M - 239 - 001 - MY3)
  • 8. Jang-Yeh Huang, Fang-Chi Hsu, Hsiu-Kuai Hsu, and Yang-Fang Chen, 中國材料年會,桃園, Oct. 18 – 19 (2013) (NSC 102 - 2112 - M - 239 - 001 - MY3)
  • 9. Fang-Chi Hsu*, Jian-Yu Chen, Yun-Ming Sung, and Yang-Fang Chen, “Effects of conjugated small molecule on metal-oxide surface in inverted polymer/ZnO solar cells,” Material Research Society Spring Meeting, San Francisco, CA USA. April 1 – April 5 (2013). (NSC 101-2112-M-239-001)
  • 10. Fang-Chi Hsu*, Jian-Yu Chen, Yun-Ming Sung, and Yang-Fang Chen, “Improved Inverted Polymer/ZnO-nanorod Photovoltaic Performance by Conductive Small Molecules,” Annual Meeting of the Polymer Society, Chiayi, Taiwan (Jan. 2013). (NSC 101-2112-M-239-001)
  • 11. Fang-Chi Hsu*, Jian-Yu Chen, Yun-Ming Sung, and Yang-Fang Chen, “Efficient Charge Transport in Hybrid Polymer/ZnO-nanorod Solar Cells Assisted by Conductive Small Molecules,” International Photonic Conference, Taipei Taiwan (Dec. 2012). (NSC 101-2112-M-239-001)
  • 12. Chiang-Ting Chen, Fang-Chi Hsu*, Yun-Ming Sung, Hsueh-Chung Liao, Wei-Che Yen , Wei-Fang Su and Yang-Fang Chen*, “Effects of metal-free conductive oligomer as a surface modifier in hybrid polymer/ZnO solar cells,” 中國材料年會,雲林(Nov. 23-24, 2012) (NSC 98-2112-M-239-001-MY3 and NSC 101-2112-M-239-001).
  • 13. Hao-Ying Tsai, and Fang-Chi Hsu*, The use of surface modifier to enhance the performance of hybrid photovoltaic cells, Annual Meeting of Taiwan Ceramic Society, Miaoli, Taiwan (2012). (NSC 98-2112-M-239-001-MY3).
  • 14. Fang-Chi Hsu*, Yun-Ming Sung, Di-Yan Wang, I-Sheng Wang, Chia-Chun Chen, Hsueh-Chung Liao, Wei-Fang Su and Yang-Fang Chen* Enhanced Charge Extraction in Inverted Hybrid Photovoltaic Cells Assisted by Graphene Nano-flakes, Material Research Society Spring Meeting, San Francisco, CA USA. April 2012. (NSC 98-2112-M-239-001-MY3).
  • 15. Fang-Chi Hsu,* Yun-Ming Sung, Di-Yan Wang, I-Sheng Wang, Chia-Chun Chen, Hsueh-Chung Liao, Wei-Fang Su, and Yang-Fang Chen*, Enhanced Charge Extraction in Inverted Hybrid Photovoltaic Cells Assisted by Graphene Nano-flakes, Annual Meeting of the Physical Society of the Republic of China, Chiayi, Taiwan (2012). (NSC 98-2112-M-239-001-MY3).<
  • 16. Chiang-Ting Chen, Fang-Chi Hsu, and Yang-Fang Chen, The effect of C60 on the ZnO-nanorod surface in organic-inorganic hybrid photovoltaics, IUMRS-ICA, Taipei, Taiwan (2011). (NSC 98-2112-M-239-001-MY3).
  • 17. F. C. Hsu, C. T. Chen, Y. M. Sung, and Y. F. Chen, Performance Enhancement in Organic-inorganic Hybrid Photovoltaic Cells by Adding a Carbon-nanostructure Interface Layer, Photovoltaic Specialist Conference, Seattle WA, USA (June, 2011) (NSC 98-2112-M-239-001-MY3).
  • 18. F. C. Hsu, C. T. Chen, S. W. Kwan, and Y. F. Chen, Effects of C60 on the ZnO-nanorod surface in organic-inorganic hybrid solar cells, Annual Meeting of the Physical Society of the Republic of China, Taipei, Taiwan (2011). (NSC 98-2112-M-239-001-MY3)
  • 19. Chun-Shiang Wu, Chi-Shiung Hsi, Fang-Chi Hsu*, Moo-Chin Wang, Yung-Sheng Chen, Magnetic and thermal induced properties of the Li2O-MnO2-CaO-P2O5-SiO2 glasses driven by Fe2O3, 12th International Conference and Exhibition of the European Ceramic Society, June 2011, Sweeden.
  • 20. Chi-Shiung Hsi, Mei Yu Chen, Heli Jantunen, Fang-Chi Hsu*, and Tzu-Chin Lin, Sintering of titanate based dielectrics doped with lithium fluoride and calcium borosilicate glass, 6th International Conference on Microwave Materials and Their Applications MMA-2010, September 1–3, 2010, Warszawa.
  • 21. F. C. Hsu, C. T. Chen, S. W. Kwan, and Y. F. Chen, The Effect of C60 on the ZnO-nanorod surface in organic-inorganic hybrid solar cells, International Photonic Conference, Tainan Taiwan (2010). (NSC 98-2112-M-239-001-MY3)
  • 22. F. C. Hsu, C. T. Chen, S. W. Kwan, and Y. F. Chen, Improvement of the polymer composite:ZnO-nanocolumn solar cell performance through surface modification, APS March Meeting, Portland OR , USA (2010). (NSC 98-2112-M-239-001-MY3)
  • 23. F. C. Hsu*, C. T. Chen, S. W. Kuan, W. F. Su, and Y. F. Chen, Development of High Efficiency Polymer/ZnO Hybrid Solar Cells, Annual Meeting of the Physical Society of the Republic of China, Tainan, Taiwan (2010). (NSC 98-2112-M-239-001-MY3)
  • 24. F. C. Hsu, Plastic Solar Cells, Seminar March 2, Department of Energy and Resources, National United University, Miaoli, Taiwan (2010).
  • 25. F. C. Hsu, Polymer Solar Cells, Seminar March 10, Department of Materials Science and Engineering, National United University, Miaoli, Taiwan (2009).
  • 26. F. C. Hsu and A. J. Epstein, ESR Study of Electric-Field Controlled Conductance of Fully-doped Polymers in a Transistor Structure, APS March Meeting, Baltimore, MD (2006).
  • 27.F. C. Hsu and A. J. Epstein, Metallic Polymer “Transistor”, Summer Seminar August 8, 2005, Department of Physics, The Ohio State University.
  • 28. F. C. Hsu, J. H. Park, O. Waldmann, Y. M. Kim, N. R. Chiou, V. N. Prigodin, A. J. Epstein, Ion-leveraged Devices Based on Conducting Polymer, APS March Meeting, Austin TX (2003).
  • 29. F. C. Hsu, J.A.O. Smallfield, J. Joo, J. Lu, A.G. MacDiarmid, A.J. Epstein, Transistor-type Devices Based on Conducting Polymers, APS March Meeting, Indianapolis, IN (2002).

 

瀏覽數: