English

Department of Photonics

National Chiao Tung University

有機電子元件實驗室

Organic Electronics Laboratory

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研究主題

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Solar Energy Harvesting

我們專注於改善有機光伏元件與鈣鈦礦太陽能電池的能量轉換效率,同時也開創這些新興光伏元件的應用方向,例如有機光伏元件有機會能應用於生物醫療領域,有機光伏元件與鈣鈦礦太陽能電池在低照度下也比一般矽太陽能電池的能量轉換效率高, 因此將會是物聯網等電子系統良好的提供能量選擇更多資訊

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Organic/Perovskite Light-Emitting Diodes

有機發光二極體已被廣泛應用於平面顯示器與照明光源等方面,我們目前專注於OLED的顯示與照明應用,同時也發展新型的鈣鈦礦發光二極體與鈣鈦礦量子點技術,他們有更純的光色、更低的成本,此外,可撓的發光元件也是我們另一個研究重點。更多資訊

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Organic Thin-Film Transistors

有機薄膜電晶體有非常多的應用範圍,例如平面顯示器的驅動與感測器等,我們已藉由有機半導體的製程、有機介電層、新式結構的發展等方式提升電晶體的性能。更多資訊

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Machine Learning for Smart Materials

人工智慧(AI)近來已受到廣泛的重視,我們已運用機器學習與深度學習針對各種有機半導體材料結構進行篩選,目標為能為各種有機光電與電子元件更快速設計及尋求更高效能的有機材料。此外也正在發展其他可能的光電元件應用。更多資訊

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Organic/Perovskite Photodetectors

有機光感測器能滿足更多元的光感測需求,例如我們已製作在近紅外光的光電倍增光感測器,其高敏感度能運用於夜視、夜間監視器與生物醫療成像等應用。近來將發展X光感測元件以利達成生物醫療的應用。更多資訊

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Others

我們也對其他不同的可撓性光電與電子元件研究領域感興趣,特別是可以利用簡易溶液製程製作的元件,例如有機記憶體、可撓雷射等,我們歡迎各種合作的可能性。更多資訊

指導教授

Prof. Chen's picture

陳方中博士

教授, 光電系副主任
Email: fcchen@mail.nctu.edu.tw
TEL: +886-3-5131484
Curriculum Vitae
個人網站

學歷

經歷

  • 教授, 光電系, 國立交通大學 (Aug. 2012 - )
  • 召集人, 平面顯示技術碩士學位學程, 國立交通大學 (Aug. 2009 - July 2011)
  • 副召集人, 平面顯示技術碩士學位學程, 國立交通大學 (Feb. 2009 - Aug. 2009)
  • 副教授, 光電系, 國立交通大學 (Aug. 2008 - July 2012)
  • 助理教授, 光電系, 國立交通大學 (Feb. 2004 - July 2008)
  • 博士後研究, 材料科學與工程學系, 加州大學洛杉磯分校 (Oct. 2003)

獎項

  • 2020 有庠科技論文獎
  • 2020 最具潛力物聯網創新應用獎
  • 2019 Volunteer Service Awards - The EITA Hall of Fame
  • 2008 中央研究院年輕學者研究著作獎
  • The UCLA Henry Samueli School of Engineering and Applied Science 2002-2003 Awards: Outstanding Doctor of Philosophy in Materials Science and Engineering

實驗室成員

研究設備

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我們已建置完整的有機光電與電子元件製程設備,包含有手套箱、旋轉塗佈機與熱蒸鍍機,多數均建置於氮氣環境下,能保護元件在製作過程中不受大氣環境中水氧之影響,設備均建置於等級10k的潔淨室中。
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我們有數個特別為了有機半導體製程設計之熱蒸鍍機,並設置於黃光室防止元件遭受藍光之傷害。
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能在等級100的潔淨室室中進行黃光微影,也可在數個通風廚內能進行簡單的化學合成實驗。
Measurement_Equipments
特別針對元件的電子與光電特性,我們也於交映樓建立量測實驗室,同時也能量測有機半導體的物理及化學特性。
其他重要的量測儀器包含有:
  1. Keithley 4200 and a Probe Station Measurement System
  2. Several Keithley 2400 Source Measurement Units
  3. UV-Visible Spectrophotometer
  4. Ocean optics Spectrometers
  5. Time-Resolved PL Measurement System
  6. Micro-Raman Spectrometer
  7. PR650 SpectraScan Colorimeter
  8. AM1.5G Solar Simulator
  9. External Quantum Efficiency (EQE) Instruments
  10. Tektronix 1GHz Oscilloscope
  11. Various types of Lasers and Light Sources, such as Xe and Hg Lamps
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發表論文

精選期刊論文
  1. Ming-Kai Chuang, Chun-Hao Lin, Fang-Chung Chen*, “Accumulated plasmonic effects of gold nanoparticle decorated PEGylated graphene oxides in organic light-emitting diodes”, Dyes Pigm. 180, 108412 (2020). (IF:4.613) (Access)
  2. Chien-Lun Huang, Gautham Kumar, Ganesh D. Sharma, Fang-Chung Chen*, “Plasmonic Effects of Copper Nanoparticles in Polymer Photovoltaic Devices for Outdoor and Indoor Applications“, Appl. Phys. Lett. 116, 253302 (2020). (IF: 3.597) (Access)
  3. Ming-Ju Wu, Chien-Chen Kuo, Lu-Syuan Jhuang, Po-Han Chen, Yi-Fong Lai, and Fang-Chung Chen*, “Bandgap Engineering Enhances the Performance of Mixed-Cation Perovskite Materials for Indoor Photovoltaic Applications”, Adv. Energy Mater. 9, 1901863 (2019). (Inside Front Cover) (IF:25.245) (Access).
  4. Hsin-Hung Sung, Chien-Chen Kuo, Hung-Sheng Chiang, Hong-Lin Yue, Fang-Chung Chen*, “Differential Space‐Limited Crystallization of Mixed‐Cation Lead Iodide Single‐Crystal Micro‐Plates Enhances the Performance of Perovskite Solar Cells”, Solar RRL 3, 1900130 (2019). (IF:7.527) (Access).
  5. Yu-Chi Wang, Heng Li, Yu-Heng Hong, Kuo-Bin Hong, Fang-Chung Chen, Chia-Hung Hsu, Ray-Kuang Lee, Claudio Conti, Tsung Sheng Kao,* and Tien-Chang Lu* “Flexible Organometal–Halide Perovskite Lasers for Speckle Reduction in Imaging Projection”, ACS Nano 13, 5421-5429 (2019). (IF:14.558) (Access).
  6. Fang-Chung Chen*, “Virtual Screening of Conjugated Polymers for Organic Photovoltaic Devices Using Support Vector Machines and Ensemble Learning” Int. J. Polym. Sci. 2019, 4538514 (2019). (IF:1.892) (Open Access).
  7. Ming-Chuan Hsiao, Ping-Cheng Chien, Lu-Syuan Jhuang and Fang-Chung Chen* “Bidentate Chelating Ligands as Effective Passivating Materials for Perovskite Light-Emitting Diodes”, Phys. Chem. Chem. Phys. 21, 7867-7831 (2019). (IF:3.567) (Access).
  8. Fang-Chung Chen*, “Emerging Organic and Organic/Inorganic Hybrid Photovoltaic Devices for Specialty Applications: Low-Level-Lighting Energy Conversion and Biomedical Treatment”, Adv. Opt. Mater. 7, 1800662 (2019). (IF:7.430) (Free Access).
  9. Hong-Lin Yue, Hsin-Hung Sung and Fang-Chung Chen*, “Seeded Space-Limited Crystallization of CH3NH3PbI3 Single-Crystal Plates for Perovskite Solar Cells”, Adv. Electron. Mater. 4 (issue 7), 1700655, (2018). (IF:5.466)
  10. Nai-Wei Teng, Shun-Shing Yang, and Fang-Chung Chen*, “Plasmonic-enhanced organic photovoltaic devices for low-power light applications”, IEEE J. Photovolt. 8, 752-756 (2018). (IF:3.075)
  11. Shun-Shing Yang, Zong-Chun Hsieh, Muchamed L. Keshtov, Ganesh D. Sharma, and Fang-Chung Chen*, “Toward High-Performance Polymer Photovoltaic Devices for Low-Power Indoor Applications”, Solar RRL, 1, 1700174 (2017). (IF:7.527) (selected as the front cover )
  12. Wai-Chen Lin, Ming-Kai Chuang, Muchamed L. Keshtov, Ganesh D. Sharma, and Fang-Chung Chen* “Photoexfoliation of Two-Dimensional Materials through Continuous UV Irradiation” Nanotechnology 28, 125604 (2017). (IF:3.440)
  13. Tsung Sheng Kao, Yu-Hsun Chou, Kuo-Bin Hong, Jiong-Fu Huang, Chun-Hsien Chou, Hao-Chung Kuo, Fang-Chung Chen* and Tien-Chang Lu*, “Controllable lasing performance in solution-processed organicinorganic hybrid perovskites” Nanoscale 8, 18483-18488 (2016) (IF:7.367).
  14. Chiung-Fu Huang, M. L. Keshtov and Fang-Chung Chen*, ”Cross-Linkable Hole-Transport Materials Improve the Device Performance of Perovskite Light-Emitting Diodes” ACS Appl. Mater. Interfaces 8, 27006-27011 (2016). (Times Cited:7) (IF:8.097)
  15. Tsung Sheng Kao, Kuo-Bin Hong, Yu-Hsun Chou, Jiong-Fu Huang, Fang-Chung Chen*, and Tien-Chang Lu* “Localized surface plasmon for enhanced lasing performance in solution-processed perovskites” Opt. Express 24, 20696-20702 (2016) (Times Cited:4) (IF:3.589)
  16. Yu-Sheng Hsiao*, Yan-Hao Liao, Huan-Lin Chen, Peilin Chen and Fang-Chung Chen*, ”Organic photovoltaics and bioelectrodes providing electrical stimulation for PC12 cell differentiation and neurite outgrowth” ACS Appl. Mater. Interfaces 8, 9275 (2016). (Times Cited:10) (IF:8.097)
  17. Chun-Hsien Chou, Min-Hung Hsu and Fang-Chung Chen*, “Flexible luminescent waveguiding photovoltaics exhibiting strong scattering effects from the dye aggregation” Nano Energy 15, 729-736 (2015) (Times Cited:7) (IF:13.120)
  18. Ming-Kai Chuang, and Fang-Chung Chen*, “Synergistic plasmonic effects of metal nanoparticle–decorated PEGylated graphene oxides in polymer solar cells” ACS Appl. Mater. Interfaces 7, 7397–7405 (2015) (Times Cited:30) (IF:8.097)
  19. Tsung Sheng Kao, Yu-Hsun Chou, Chun-Hsien Chou, Fang-Chung Chen*, and Tien-Chang Lu* “Lasing behaviors upon phase transition in solution-processed perovskite thin films” Appl. Phys. Lett. 105, 231108 (2014) (Times Cited:36) (IF:3.495)
  20. An-Kai Ling, Chun-Hao Lin, Hsun Liang, and Fang-Chung Chen* “Tunable microcavities in organic light-emitting diodes by way of low-refractive-index polymer doping“ Org. Electron. 15, 3648 (2014) (IF:3.680)
  21. Chun-Hsien Chou and Fang-Chung Chen* “Plasmonic nanostructures for light trapping in organic photovoltaics devices” Nanoscale 6, 8444 (2014) (Times Cited:81) (IF:7.233)
  22. Yen-Tseng Lin, Chu-Hsien Chou, Fang-Chung Chen,* Chih-Wei Chu, and Chain-Shu Hsu “Reduced optical loss in mechanically stacked multi-junction organic solar cells exhibiting complementary absorptions” Opt. Express 22, S2, A481-A490 (2014) (Times Cited:4) (IF:3.356).
  23. Ming-Kai Chuang, Shih-Wei Lin, Fang-Chung Chen,* Chih-Wei Chu, and Chain-Shu Hsu “Gold nanoparticle–decorated graphene oxides for plasmonic-enhanced polymer photovoltaic devices” Nanoscale 6, 1573 (2014) (Times Cited:62) (IF:7.233).
  24. Wei-Ting Lin, Yen-Tseng Lin, Chu-Hsien Chou, Fang-Chung Chen* and Chain-Shu Hsu “Organic solar cells comprising multiple-device stacked structures exhibiting complementary absorption behavior” Sol. Energy Mater. Sol. Cells 120, 724 (2014) (Times Cited:6) (IF:5.018).
  25. Kim-Shih Tan, Ming-Kai Chuang, Fang-Chung Chen*, and Chain-Shu Hsu “Solution-processed nanocomposites containing molybdenum oxide and gold nanoparticles as anode buffer layers in plasmonic-enhanced organic photovoltaic devices” ACS Appl. Mater. Interfaces 5, 12419 (2013) (Times Cited:27) (IF:8.097).
  26. Chun-Hsien Chou, Jui-Kang Chuang and Fang-Chung Chen* “High-Performance Flexible Waveguiding Photovoltaics” Sci. Rep. 3, 2244 (2013) (Times Cited:21) (IF:4.122).
  27. Chu-Chen Chueh, Shang-Chieh Chien, Hin-Lap Yip, José Francisco Salinas, Chang-Zhi Li, Kung-Shih Chen, Fang-Chung Chen, Wen-Chang Chen, and Alex K.-Y. Jen* “Toward high-performance semi-transparent polymer solar cells: optimization of ultra-thin light absorbing layer and transparent cathode architecture” Adv. Energy Mat. 4, 417-423 (2013) (Times Cited:82) (IF:21.875).
  28. Yu-Sheng Hsiao, Shobhit Charan, Feng-Yu Wu, Fan-Ching Chien, Chih-Wei Chu, Peilin Chen,* and Fang-Chung Chen* “Improving the light trapping efficiency of plasmonic polymer solar cells through photon management” J. Phys. Chem. C 116 (39), 20731–20737 (2012) (Times Cited:78) (IF:4.484)
  29. Shang-Chieh Chien, Fang-Chung Chen*, Ming-Kai Chung, and Chain-Shu Hsu “Self-assembled poly(ethylene glycol) buffer layers in polymer solar cells: toward superior stability and efficiency” J. Phys. Chem. C 116, 1354 (2012) (Times Cited:33) (IF:4.484)
  30. Jyh-Lih Wu, Fang-Chung Chen,* Ming-Kai Chuang and Kim-Shih Tan “Near-infrared laser-driven polymer photovoltaic devices and their biomedical applications” Energy Environ. Sci. 4, 3374 (2011). (IF:30.067)
  31. Jyh-Lih Wu, Fang-Chung Chen*, Yu-Sheng Hsiao, Fan-Ching Chien, Peilin Chen, Chun-Hong Kuo, Michael H. Huang, and Chain-Shu Hsu “Surface plasmonic effects of metallic nanoparticles on the performance of polymer bulk-heterojunction solar cells” ACS Nano 5, 959 (2011) (Times Cited:605) (IF:13.709)
  32. Fang-Chung Chen*, Chu-Jung Ko, Jyh-Lih Wu, and Wei-Chi Chen “Morphological study of P3HT:PCBM blend films prepared through solvent annealing for solar cell applications” Sol. Energy Mater. Sol. Cells 94, 2426 (2010). (Times Cited:91) (IF:5.018)
書籍章節
  1. Fang-Chung Chen*, “Organic Semiconductors” in “Encyclopedia of Modern Optics II”, vol. 5, pp. 220-231, Editor(s)-in-Chief: B. D. Guenther and D. G. Steel, Elsevier, 2018. (ISBN 978-0-12-814982-9).
  2. Ming-Kai Chuang, Jyh-Lih Wu, Shang-Chieh Chien, and Fang-Chung Chen*, “Surface Plasmonic Effects of Nanostructures on the Performance of Polymer Solar Cells”, pp. 299-313, edited by Y. Yang and G. Li, Springer, 2015. (ISBN 978-3-662-45508-1 for Hardcover; 978-3-662-45509-8 for eBook).
  3. Fang-Chung Chen*, Chun-Hsien Chou, and Ming-Kai Chuang, “High-Performance Bulk-Heterojunction Polymer Solar Cells” in “Low-cost Nanomaterials, Toward Greener and More Efficient Energy Applications”, pp. 167-187, edited by Z. Lin and J. Wang, Springer, 2014. (ISBN 978-1-4471-6472-2 for Hardcover; 978-1-4471-6473-9 for eBook).
  4. Shang-Chieh Chien and Fang-Chung Chen*, “Polymer Solar Cells” in “Polymer Electronics” Chapter 5, edited by H. F. Meng, Pan Stanford Publishing Pte Ltd, 2013. (ISBN 978-981-4267-84-7 for Hardcover; 978-981-4364-04-1 for eBook).
  5. Jyh-Lih Wu, Chu-Jung Ko, and Fang-Chung Chen*, “Annealing methods for controlling the morphology of polymer solar cells” in “Photovoltaics: Developments, Applications and Impact” Chapter 3, pp. 63-87, edited by H. Tanaka and K. Yamashita,Nova Science Publishers, Inc., New York, 2010. (ISBN 978-1-60876-022-0).
發表論文總表

住址: 國立交通大學光復校區交映樓301室

台灣新竹市大學路1001號

TEL: +886-3-5712121 #59264