李志堅 Chih-Chien Lee

職稱
李志堅 Chih-Chien Lee
教授
學歷
美國史蒂文生理工學院博士
電子郵件
cclee@mail.ntust.edu.tw
辦公室
EE709

Office Hours	星期二 10:30~12:00
電話	886-2-27376408
個人網頁	http://
實驗室	有機光電實驗室
研究領域	有機光電元件製作、透明顯示器、軟性電子元件、鈣鈦礦太陽能電池與感測器、彩色化有機太陽能電池、極弱光有機光偵測器
開授課程	物理、有機電激發光元件光電原理、工程光學、顯示器光學

現職及經歷

2017.08 ~ 迄今	國立臺灣科技大學電子工程系教授
2012.02 ~ 2017.07	國立臺灣科技大學電子工程系副教授
2005.08 ~ 2012.01	國立臺灣科技大學電子工程系助理教授
2001.07 ~ 2005.07	錸寶科技股份有限公司元件開發部副理
1999.07 ~ 2001.03	美國維吉尼亞電子工程系副研究員
1998.07 ~ 1999.06	美國陸軍研究實驗室, RF & Electronics 客座研究員

重要研究成果

[1]
[2]	重要研究成果

榮譽及獎勵

研究成果

期刊論文

[1]	Johan Iskandar, Chih-Yi Liu, Chih-Chien Lee, Kuan-Yu Ke, M. Rivaldi Ali Septian, Richie Estrada, Humaidi Humaidi, Sajal Biring, Cheng-Shane Chu, Zong-Liang Tseng* and Shun-Wei Liu*, “Stabilizing perovskite quantum dot oxygen sensors through ultra-long 2 mm horizontally aligned nanopores in anodic alumina oxide templates,” Journal of Materials Chemistry C, 2024. [SCI, IF: 5.7]
[2]	Ade Kurniawan, Chih-Chien Lee, Rakha Saputra, Johan Iskandar, Chih-Yi Liu, Shun-Wei Liu*, Sajal Biring, “Improving the Gas Sensing Performance of Halide Perovskite MAPbI3 Film via Fractal Geometry Electrode Structure,” Sensors & Actuators: B. Chemical, vol. 417, pp. 136091, 2024. [SCI, IF: 8.0]
[3]	Chih-Chien Lee, Pei-Chun Ku, Kasimayan Uma, Hui-Chieh Lin, Ssu-Yung Chung, Shun-Wei Liu, “Advancing stability in inverted polymer solar cells through accelerated xenon curing of the ZnO layer,” Organic Electronics, vol. 135, pp. 107146, 2024. [SCI, IF: 2.7]
[4]	I-Sheng Hsu, Chih-Chien Lee, Ssu-Yung Chung, Kasimayan Uma and Shun-Wei Liu, “Efficient, stable, and transparent photovoltaic cells with segment-patterned micro-cavity cathodes,” Journal of Materials Chemistry C, vol. 12, pp. 17068-17077, 2024. [SCI, IF: 5.7]
[5]	M. Rivaldi Ali Septian, Richie Estrada, Chih-Chien Lee, Johan Iskandar, Nurul Ridho Al Amin, Johansah Liman, Budi Harsono, Kevin Sutanto, Ping-Chung Yeh, Chih-Hsin Chen, and Shun-Wei Liu “Enhancing Specific Detectivity and Device Stability in Vacuum-Deposited Organic Photodetectors Utilizing Nonfullerene Acceptors,” ACS Applied Materials & Interfaces, vol. 16 (36), pp. 48034-48042, 2024. [SCI, IF: 8.3]
[6]	Johan Iskandar, Chih-Chien Lee, Xiang Ren Deng, Shun-Wei Liu* and Sajal Biring*, “Achieving highly efficient antisolvent-and annealing-free NIR perovskite light-emitting diodes by optimizing the gradient of preheating,” Journal of Materials Chemistry C, vol. 12 (16), pp. 5718-5726, 2024. [SCI, IF: 5.7]
[7]	Yu-Ching Huang*, Chih-Chien Lee, Yung-Yuan Lee, Ssu-yung Chung, Hui-Chieh Lin, Uma Kasimayan, Chia-Feng Li and Shun-Wei Liu, “High-efficiency ITO-free organic solar cells through top illumination,” Materials Advances, vol. 5 (6), pp. 2411-2419, 2024. [SCI, IF: 5.2]
[8]	Jia-Xun Xie, Chih-Chien Lee, Lin-Ming Huang, Huang-Teng Lin, Dian Luo, Chung-Hung Hsieh, Shun-Wei Liu,* and Chih-Hsin Chen*, “Positional Isomeric Cyano-Substituted Bis(2-phenylpyridine)(acetylacetonate)iridium Complexes for Efficient Organic Light-Emitting Diodes with Extended Color Range,” ACS Applied Materials & Interfaces, vol. 15, pp. 44022-44032, 2023. [SCI, IF: 9.5]
[9]	Ade Kurniawan, Chih-Chien Lee, Johan Iskandar, Chih-Yi Liu, Bhola Nath Pal, Hsin-Ming Cheng, Shun-Wei Liu* and Sajal Biring*, “Optimization of a triazine-based acceptor (CN-T2T) as the electron transport layer for highly efficient near-infrared perovskite light-emitting diodes,” Journal of Materials Chemistry C, vol. 11, pp. 11564-11570, 2023. [SCI, IF: 6.4]
[10]	I-Sheng Hsu, Chih-Chien Lee,* Abdul Khalik Akbar, Kasimayan Uma and Shun-Wei Liu*, “Transparent organic photovoltaics with a tungsten oxide buffer layer fabricated by nanosecond laser processing for color-neutral performance,” Journal of Materials Chemistry C, vol. 11, pp. 10351-10358, 2023. [SCI, IF: 6.4]
[11]	Nurul Ridho Al Amin, Chih-Chien Lee, Yu-Chen Huang, Chun-Jen Shih, Richie Estrada, Sajal Biring, Meng-Hsueh Kuo, Chia-Feng Li, Yu-Ching Huang,* and Shun-Wei Liu*, “Achieving a Highly Stable Perovskite Photodetector with a Long Lifetime Fabricated via an All-Vacuum Deposition Process,” ACS Applied Materials & Interfaces, vol. 15, pp. 21284-21295, 2023. [SCI, IF: 9.5]
[12]	Richie Estrada, Dian Luo, Chih-Chien Lee, Johan Iskandar, Sajal Biring, Nurul Ridho Al Amin, Abdul Khalik Akbar, Chih-Hsin Chen, Chang-Wei Yu, Tran My Dung Pham and Shun-Wei Liu*, “Developing efficient small molecule-based organic photo-couplers by optimizing the cathode interfacial layer in the photodetector,” Journal of Materials Chemistry C, vol. 11, pp. 5378-5387, 2023. [SCI, IF: 6.4]
[13]	Johan Iskandar, Chih-Chien Lee, Ade Kurniawan, Hsin-Ming Cheng,* Shun-Wei Liu,* and Sajal Biring*, “Improving the efficiency of near-IR perovskite LEDs via surface passivation and ultrathin interfacial layers,” Cell Reports Physical Science, vol. 3, pp. 101170, 2022. [SCI, IF: 8.9]
[14]	Chih-Chien Lee, Johan Iskandar, Ade Kurniawan, Hung-Pin Hsu, Ya-Fen Wu, Hsin-Ming Cheng, Shun-Wei Liu, “Modulation of the carrier balance of lead-halide perovskite nanocrystals by polyelectrolyte hole transport layers for near-infrared light-emitting diodes,” Heliyon, vol. 8, pp. e10504, 2022. [SCI, IF: 3.776]
[15]	Kai-Hua Kuo, Richie Estrada, Chih-Chien Lee, Nurul Ridho Al Amin, Ya-Ze Li, Marvin Yonathan Hadiyanto, Shun-Wei Liu,* and Ken-Tsung Wong*, “A New Dioxasilepine?Aryldiamine Hybrid Electron-Blocking Material for Wide Linear Dynamic Range and Fast Response Organic Photodetector,” ACS Applied Materials & Interfaces, vol. 14, pp. 18782-18793, 2022. [SCI, IF: 10.383]
[16]	Chun-Hao Chiu, Nurul Ridho Al Amin, Jia-Xun Xie, Chih-Chien Lee, Dian Luo, Sajal Biring, Kevin Sutanto, Shun-Wei Liu* and Chih-Hsin Chen*, “A phosphorescent OLED with an efficiency roll-off lower than 1% at 10000 cd m-2 achieved by reducing the carrier mobility of the donors in an exciplex co-host system,” Journal of Materials Chemistry C vol. 10, pp.4955-4964, 2022. [SCI, IF: 6.67]
[17]	Kevin Sutanto, Nurul Ridho Al Amin, Chih-Hsin Chen, Dian Luo, Chien-Hsin Chen, Sajal Biring, Chih-Chien Lee, Shun-Wei Liu*, “Vacuum deposited WO3/Al/Al:Ag anode for efficient red organic light-emitting diodes,” Organic Electronics vol. 103, pp. 106454, 2022. [SCI, IF: 3.868]
[18]	Marvin Yonathan Hadiyanto, Richie Estrada, Chih-Chien Lee, Sajal Biring, Abdul Khalik Akbar, Chien-Yi Li, Chun-Jen Shih, Ya-Ze Li, Shun-Wei Liu, “Transparent photodetectors with ultra-low dark current and high photoresponse for near-infrared detection”, Organic Electronics, vol. 99, pp. 106356-1~8, 2021, [SCI, IF: 3.721]
[19]	Chih-Chien Lee, Nurul Ridho Al Amin, Jing-Jie Xu, Bo-Cheng Wang, Dian Luo, Kevin Sutanto, Sajal Biring, Shun-Wei Liu and Chih-Hsin Chen, “Controllable crystallization based on the aromatic ammonium additive for efficiently near-infrared perovskite light-emitting diodes”, Organic Electronics, vol. 99, pp. 106327-1~7, 2021. [SCI, IF: 3.721]
[20]	Chih-Chien Lee, Nurul Ridho Al Amin, Jing-Jie Xu, Bo-Cheng Wang, Dian Luo, Kevin Sutanto, Sajal Biring, Shun-Wei Liu and Chih-Hsin Chen, “Structural effect of phenylcarbazole-based molecules on the exciplex-forming co-host system to achieve highly efficient phosphorescent OLEDs with low efficiency roll-off”, Journal of Materials Chemistry C vol. 9, pp.9453-9464, 2021. [SCI, IF: 7.393]
[21]	Meng-Zhen Li, Chih-Chien Lee, Sajal Biring, I-Sheng Hsu, Dian Luo, Richie Estrada, Yi-Shiuan Wu, Chun-Chen Yang, and Shun-Wei Liu, “Vacuum-Deposited Transparent Organic Photovoltaics for Efficiently Harvesting Selective Ultraviolet and Near-Infrared Solar Energy”, Solar RRL, vol. 5 p.2000564-1~11, 2020. [SCI, IF: 8.682]
[22]	Chih-Chien Lee, Richie Estrada, Ya-Ze Li, Sajal Biring, Nurul Ridho Al Amin, Meng-Zhen Li, Shun-Wei Liu, and Ken-Tsung Wong, “Vacuum-Processed Small Molecule Organic Photodetectors with Low Dark Current Density and Strong”, Advanced Optical Materials, vol. 8, pp. 2000519-1~10, 2020. [SCI, IF: 9.926]
[23]	Nurul Ridho Al Amin, Kiran Kishore Kesavan, Sajal Biring, Chih-Chien Lee, Tzu-Hung Yeh, Tzu-Yu Ko, Shun-Wei Liu, and Ken-Tsung Wong, “A Comparative Study via Photophysical and Electrical Characterizations on Interfacial and Bulk Exciplex-Forming Systems for Efficient Organic Light-Emitting Diodes”, ACS Applied Electronic Materials, vol. 2, pp. 1011-1019, 2020. [SCI, IF: 3.314]
[24]	Zhen-Jie Gao, Tzu-Hung Yeh, Jing-Jie Xu, Chih-Chien Lee, Anuradha Chowdhury, Bo-Cheng Wang, Shun-Wei Liu, and Chih-Hsin Chen, “Carbazole/Benzimidazole-Based Bipolar Molecules as the Hosts for Phosphorescent and Thermally Activated Delayed Fluorescence Emitters for Efficient OLEDs”, ACS Omega, vol. 5, pp.10553-10561, 2020. [SCI, IF: 3.512]
[25]	Sajal Biring, Yun-Ming Sung, Thanh Phuc Nguyen, Ya-Ze Li, Chih-Chien Lee, Alvin HsienYi Chan, Bholanath Pal, Somaditya Sen, Shun-Wei Liu, Ken-Tsung Wong, “Reconciling the value of Schottky barriers in small molecular organic photovoltaics from J-V and C-V measurements at low temperatures towards the estimation of open circuit voltage at 0 K”, Organic Electronics, vol. 73, pp. 166-171, 2019. [SCI, IF: 3.43]
[26]	Yuan-Chih Lo, Tzu-Hung Yeh, Chun-Kai Wang, Bo-Ji Peng, Jing-Lin Hsieh, Chih-Chien Lee, Shun-Wei Liu, and Ken-Tsung Wong, “High-Efficiency Red and Near-Infrared Organic Light-Emitting Diodes Enabled by Pure Organic Fluorescent Emitters and an Exciplex-Forming Cohost”, ACS Applied Materials & Interfaces, vol. 11 (26), pp. 23417-23427, 2019. [SCI, IF: 8.491]
[27]	Chih-Chien Lee, Sajal Biring, Shiang-Jen Ren, Ya-Ze Li, Meng-Zhen Li, Nurul Ridho Al Amin, Shun-Wei Liu, “Reduction of dark current density in organic ultraviolet photodetector by utilizing an electron blocking layer of TAPC doped with MoO3”, Organic Electronics, vol. 65, pp. 150-155, 2019. [SCI, IF: 3.43]
[28]	Tzu-Hung Yeh, Chih-Chien Lee, Chun-Jen Shih, Gautham Kumar, Sajal Biring, and Shun-Wei Liu, “Vacuum-deposited MoO3/Ag/WO3 multilayered electrode for highlyefficient transparent and inverted organic light-emitting diodes”, Organic Electronics, vol. 59, pp. 266-271, 2018. [SCI, IF: 3.60]
[29]	Chun-Jen Shih, Chih-Chien Lee, Tzu-Hung Yeh, Sajal Biring, Kiran Kishore Kesavan, Nurul Ridho Al Amin, Ming-Hung Chen, Wei-Chieh Tang, Shun-Wei Liu, and Ken-Tsung Wong, “Versatile Exciplex-Forming Co-Host for Improving Efficiency and Lifetime of Fluorescent and Phosphorescent Organic Light-Emitting Diodes”, ACS Applied Materials & Interfaces, vol. 10 , pp. 24090-24098, 2018. [SCI, IF: 8.097]
[30]	Chun-Jen Shih, Chih-Chien Lee, Ying-Hao Chen, Sajal Biring Gautham Kumar, Tzu-Hung Yeh, Somaditya Sen, Shun-Wei Liu, and Ken-Tsung Wong, “Exciplex-Forming Cohost for High Efficiency and High Stability Phosphorescent Organic Light-Emitting Diodes”, ACS Applied Materials & Interfaces, vol. 10 , pp. 2151-2157, 2018. [SCI, IF: 8.097]
[31]	Chih-Chien Lee, Chun-Jen Shih, Gautham Kumar, Sajal Biring, Somaditya Sen and Shun-Wei Liu, “Highly efficient exciplex organic light-emitting devices employing a sputtered indium-tin oxide electrode with nano-pinhole morphology,” Journal of Materials Chemistry C, vol. 5, p. 12050-12056, 2017. [SCI, IF: 5.256]
[32]	Ya-Ze Li, Chih-Chien Lee, Yan-De Li, Tzu-Hung Yeh, Po-Chien Chang, Sajal Biring, Kuan-Chieh Huang, Chia-Hung Su, and Shun-Wei Liu, “Highly efficient and inverted tandem organic light-emitting devices using a MoO3/Al/MoO3 charge generation layer,” Japanese Journal of Applied Physics, vol. 56, 03BC01-1~5, 2017. [SCI, IF: 1.122]
[33]	Wei-Cheng Su, Chih-Chien Lee, Ya-Ze Li, and Shun-Wei Liu, “Influence of Singlet and Charge-Transfer Excitons on the Open-Circuit Voltage of Rubrene/Fullerene Organic Photovoltaic Device,” ACS Applied Materials & Interface, vol. 8, p. 28757-28762, 2016. [SCI, IF: 7.145]
[34]	Chih-Hsien Yuan, Chih-Chien Lee, Chun-Fu Liu, Yun-Hsuan Lin, Wei-Cheng Su, Shao-Yu Lin, Kuan-Ting Chen, Yan-De Li, Wen-Chang Chang, Ya-Ze Li, Tsung-Hao Su, Yu-Hsuan Liu and Shun-Wei Liu, “Cathodic-controlled and nearinfrared organic upconverter for local blood vessels mapping,” Scientific Reports, vol. 6, pp. 32324-1~10, 2016. [SCI, IF: 5.228]
[35]	Chih-Chien Lee, Wei-Cheng Su and Wen-Chang Chang, “Effects of the charge-transfer reorganization energy on the open-circuit voltage in small-molecular bilayer organic photovoltaic devices: comparison of the influence of deposition rates of the donor,” Physical Chemistry Chemical Physics, vol. 18, p. 12651-12661 ,2016. [SCI, IF: 4.449]
[36]	Wei-Cheng Su, Chih-Chien Lee, Wen-Chang Chang, Ya-Ze Li, Yi-Sheng Shu, Jhih-Yan Guo, Chien-Feng Chiu, Shun-Wei Liu, “Elucidating the role of current injection on the influence of opencircuit voltage in small-molecule organic photovoltaic devices: From the aspects of charge transfer and electroluminescent spectrum,” Organic Electronics, vol. 33, p.178-186, 2016. [SCI, IF: 3.471]
[37]	Shun-Wei Liu, Ya-Ze Li, Shao-Yu Lin, Yi-Hua Li, and Chih-Chien Lee, “Inducing the trap-site in an emitting-layer for an organic upconversion device exhibiting high current-gain ratio and low turnon voltage,” Organic Electronics, vol. 30, p.275-280, 2016. [SCI, IF: 3.471]
[38]	Chi-Feng Lin, Shun-Wei Liu, Chih-Chien Lee, Takeaki Sakurai Masato Kubota, Wei-Cheng Su, Jia-Cing Huang, Tien-Lung Chiu, Hsieh-Cheng Han, Li-Chyong Chen, Chin-Ti Chen, and Jiun-Haw Lee, “A new anodic buffer layer material for non-mixed planar heterojunction Chloroboron subphthalocyanine organic photovoltaic achieving 96% internal quantum efficiency,” Solar Energy Materials & SolarCells, vol. 137, p. 138-145, 2015. [SCI, IF: 5.03]
[39]	Shun-Wei Liu, Chih-Chien Lee, Wei-Cheng Su, Chih-Hsien Yuan, Wen-Chang Chang, Jhih-Yao Guo, Chien-Feng Chiu, Ya-Ze Li, Tsung-Hao Su, Kuan-Ting Chen, Po-Chien Chang, Tzu-Hung Yeh, and Yu-Hsuan Liu, “Improving performance and lifetime of small-molecule organic photovoltaic devices by using bathocuproine-fullerene cathodic layer,” ACS Applied Materials & Interface, vol. 7, p. 9262-9273, 2015. [SCI, IF: 5.9]
[40]	Shun-Wei Liu, Chih-Chien Lee, Wei-Cheng Su, Chih-Hsien Yuan, Chun-Feng Lin, Kuan-Ting Chen, Yi-Sheng Shu, Ya-Ze Li, Tsung-Hao Su, Bo-Yao Huang, Wen-Chang Chang, and Yu-Hsuan Liu, “Downscaling the Sample Thickness to Sub-Micrometers by Employing Organic Photovoltaic Materials as a Charge-Generation Layer in the Time-of-Flight Measurement,” Scientific Reports, vol. 5, pp. 10384:1-15, 2015. [SCI, IF: 5.078]
[41]	Shun-Wei Liu, Chih-Chien Lee, Chih-Hsien Yuan, Wei-Cheng Su, Shao-Yu Lin, Wen-Chang Chang, Bo-Yao Huang, Ya-Ze Li, Tsung-Hao Su, and Kuan-Ting Chen, “Transparent organic upconversion devices for near-infrared sensing,” Advanced Materials, vol. 27, p. 1217-1222, 2015. [SCI, IF: 17.4]
[42]	Chih-Chien Lee, Wei-Cheng Su, Wen-Chang Chang, Bo-Yao Huang, and Shun-Wei Liu, “The effect of charge transfer state on the open-circuit voltage of small-molecular organic photovoltaic devices: A comparison between the planar and bulk heterojunctions using electroluminescence characterization,” Organic Electronics, vol. 16, p.1-8, 2015. [SCI, IF: 3.836]
[43]	Shun-Wei Liu, Chih-Chien Lee, An-Kuei Cheng, Chun-Feng Lin, Ya-Ze Li, and Tsung-Hao Su, “Low resistance and high work-function WO3/Ag/MoO2 multilayer as transparent anode for bright organic light-emitting diodes,” Japanese Journal of Applied Physics, vol. 54, 03CC01, 2015. [SCI, IF: 1.067]
[44]	Chih-Chien Lee, Wen-Chang Chang, Wei-Cheng Su, Bo-Yao Huang, Chun-Feng Lin, and Shun-Wei Liu, “Origin of the open-circuit voltage in small-molecular organic photovoltaic devices: Effects of deposition rate control of donor material,” Japanese Journal of Applied Physics, vol. 54, 03CD01, 2015. [SCI, IF: 1.067]
[45]	Chih-Chien Lee, Wei-Cheng Su, Yi-Sheng Shu, Wen-Chang Chang, Bo-Yao Huang, Ya-Ze Lee, Kuan-Ting Chen, and Shun-Wei Liu, “Docoupling the optical and electrical properties of subphthalocyanine/C70 bi-layer organic photovoltaic devices: improved photocurrent while maintaining a high open-circuit voltage and fill factor,” RSC Advances, vol. 5, pp. 5617, 2015. [SCI, IF: 2.562]
[46]	Shun-Wei Liu, Chih-Chien Lee, Yu-Ting Chung, Jiun-Haw Lee, Chin-Ti Chen, and Juen-KaiWang, “Improvement in Device Performance and Reliability of Organic Light-Emitting Diodes through Deposition Rate Control,” International Journal of Photoenergy, vol. 2014, 412084, 2014.[SCI]
[47]	Wei-Cheng Su, Chih-Chien Lee, Shun-Wei Liu, Chun-Feng Lin, Chia-Chang Chou, Bo-Yao Huang, and Ching-Wen Cheng, “Improving the performance of subphthalocyanine/C60 planar heterojunction organic photovoltaic device through the insertion of molybdenum oxide anodic buffer,” Japanese Journal of Applied Physics, vol. 53, 03CE02, 2014.[SCI]
[48]	Wei-Cheng Su, Chih-Chien Lee, Shun-Wei Liu, Wei-Lun Wang, Je-Min Wen, Yu-Hsuan Ho, and Chun-Feng Lin, “Characterization of intrinsic hysteresis of pentacene-based organic thin-film transistor through in-situ real-time electrical measurement,” Japanese Journal of Applied Physics, vol. 53, 03CC03, 2014.[SCI]
[49]	Chi-Feng Lin , Valerie M. Nichols , Yung-Chih Cheng, Christopher J. Bardeen, Mau-Kuo Wei, Shun-Wei Liu, Chih-Chien Lee, Wei-Cheng Su, Tien-Lung Chiu, Hsieh-Cheng Han, Li-Chyong Chen, Chin-Ti Chen, Jiun-Haw Lee, “Chloroboron subphthalocyanine/C60 planar heterojunction organic solar cell with N,N-dicarbazolyl-3,5-benzene blocking layer” Solar Energy Materials & SolarCells vol. 122, p. 264–270, 2014.[SCI]
[50]	Yung-Ting Chang, Shun-Wei Liu, Chih-Hsien Yuan, Yu-Hsuan Ho, Kuan-Yu Chen, Yi-Ting Lee, Min-Fei Wu, Chih-Chien Lee, Pei-Kuen Wei, Chin-Ti Chen, and Chih-I Wu, “Comparison of light out-coupling enhancements in single-layer blue-phosphorescent organic light emitting diodes using small-molecule or polymer hosts,” Journal of Applied Physics, vol. 114, p.173106, 2013.[SCI]
[51]	Chih-Chien Lee, Shun-Wei Liu, Ching-Wen Cheng, Wei-Cheng Su, Chia-Chang Chou, Chun-Feng Lin, and Chin-Ti Chen (2013, Jun). “Improvement in the Power Conversion Efficiency of Bulk Heterojunction Photovoltaic Device via Thermal Postannealing of Subphthalocyanine:C70 Active Layer,” International Journal of Photoenergy, p.585196-1~7, 2013.[SCI]
[52]	Shun-Wei Liu, Wei-Cheng Su, Chih-Chien Lee, Ching-Wen Cheng, Chia-Chang Chou, and Chun-Feng Lin, “Origin of the improved power conversion efficiency of pentacene/C60 heterojunction photovoltaic devices through the purification of donor material,” Japanese Journal of Applied Physics, vol. 52, p.041602-1~5, 2013.[SCI]
[53]	Shun-Wei Liu, Je-Min Wen, Chih-Chien Lee, Wei-Cheng Su, Wei-Lun Wang, Ho-Chien Chen, and Chun-Feng Lin. “Pentacene field-effect transistors by in situ and real time electrical characterization: Comparison between purified and non-purified thin films,” Thin Solid Films, vol. 534, p.640-644, 2013.[SCI]
[54]	Shun-Wei Liu, Yung-Ting Chang, Chih-Chien Lee, Chih-Hsien Yuan, Li-An Liu, Yu-San Chen, Chun-Feng Lin, Chih-I Wu, and Chin-Ti Chen, “Single-Layer Blue Electrophosphorescent Organic Light-Emitting Diodes Based on Small-Molecule Mixed Hosts: Comparison between the Solution and Vacuum Fabrication Processes,” Japanese Journal of Applied Physics, vol. 52, p.012101-1~6, 2013.[SCI]
[55]	Shun-Wei Liu, Wei-Cheng Su, Chih-Chien Lee, Chi-Feng Lin, Ching-Wen Cheng, Chia-Chang Chou, Jiun-Haw Lee, and Chin-Ti Chen, “Enhancement in open circuit voltage of organic photovoltaic devices throughcontrol of deposition rate of donor material,” Solar Energy Materials and SolarCells, vol. 109, p.280-287, 2013.[SCI]
[56]	Shun-Wei Liu, Wei-Cheng Su, Chih-Chien Lee, Ching-Wen Cheng, Chia-Chang Chou, and Chun-Feng Lin, “Absorbing Visible Light Materials of Subphthalocyanine and C70 for Efficient Planar-Mixed Organic Photovoltaic Devices,” Journal of the Electrochemical Society, vol. 160, G14-G18, 2013.[SCI]
[57]	Yung-Ting Chang, Shun-Wei Liu, Chin-Ti Chen, Chih-Hsien Yuan, Li-An Liu, Yu-San Chen, Wei-Cheng Su, Kuen-Lin Lee, Chih-I Wu, and Chih-Chien Lee, “A new model for optimization of organic light-emitting device by concurrent incorporation of electrical and optical simulations,” Journal of Applied Physics, vol. 112, p.084507-1~9, 2012.[SCI]
[58]	Shun-Wei Liu, Wei-Cheng Su, Chih-Chien Lee, Chi-Feng Lin, and Chih-Hsien Yuan, “Limited injection at electrode/organic interface induced nonideal diode behavior in planar heterojunction organic photovoltaic devices,” Journal of the Electrochemical Society, vol. 159, H871-H875, 2012.[SCI]
[59]	Chih-Chien Lee, Wei-Cheng Su, Shun-Wei Liu, and Chih-Hsien Yuan, “Organic photovoltaic cells employing an ultrathin electron donor of arylamino-substituted fumaronitrile material,” Japanese Journal of Applied Physics, vol. 51, p.09MA04-1~5. , 2012.[SCI]
[60]	Shun-Wei Liu, Wei-Cheng Su, Chih-Chien Lee, Chi-Feng Lin, and Chih-Hsien Yuan, “Limited Injection at Electrode/Organic Interface Induced Non-Ideal Diode Behavior in Planar Heterojunction Organic Photovoltaic Devices,” Journal of The Electrochemical Society, vol. 159 (11) H871-H875, 2012. [SCI]
[61]	Chih-Chien Lee, Wei-Cheng Su, Shun-Wei Liu, and Chih-Hsien Yuan, “Organic Photovoltaic Cells Employing an Ultrathin Electron Donor of Arylamino-Substituted Fumaronitrile Material,” Japanese Journal of Applied Physics, vol. 51, 09MA04, 2012.[SCI]
[62]	Shun-Wei Liu, Chih-Chien Lee, Wei-Cheng Su, Chi-Feng Lin, and Chia-Chang Chou, “Enhancing Device Performance of Small Molecular Organic Photovoltaic Cells by Controlling the Deposition Rate of Fullerene,” Journal of the Chinese Chemical Society, 2012.[SCI]
[63]	S. W. Liu, W.C. Su, C. C. Lee, C. C. Chou, and C. W. Cheng, “Efficient Organic Photovoltaic Device Using a Sublimated Subphthalocyanine as an Electron Donor,” ECS Solid State Letters, vol. 1, P70-P72, 2012.
[64]	C. F. Lin, S. W. Liu, C. C. Lee, J. C. Huang, W. C. Su, T. L. Chiu, C. T. Chen, and J. H. Lee, “Open-circuit voltage and efficiency improvement of subphhalocyanine-based organic photovoltaic device through deposition rate control,” Sol. Energy Mater. Sol. Cells., vol. 103, p.69-75, 2012.[SCI]
[65]	S. W. Liu, C. F. Lin, C. C. Lee, W. C. Su, C. T. Chen, and J. H. Lee, “High open-circuit voltage planar heterojunction organic photovoltaic device exhibiting red electroluminescence,” J. Electrochem. Soc., vol. 159, p191-194, 2012.[SCI]
[66]	S. W. Liu, W. C. Su, C. C. Lee, C. F. Lin, S. C. Yeh, C. T. Chen, and J. H. Lee, “Comparison of short and long wavelength absorption electron donor materials in C60-based planar heterojunction organic photovoltaics,” Org. Electron., vol. 13, p.2118-2129, 2012.[SCI]
[67]	S. W. Liu, C. C. Lee, J. M. Wen, and C. T. Chen, "In situ vacuum measurement of the thickness dependence of electron mobility in naphthalenetetracarboxylic diimide-based field-effect transistors," Applied Physics Letters. vol. 98, pp. 023306-1~023306-3, 2011.[SCI]
[68]	S. W. Liu, C. H. Yuan, S. J. Yeh, M. F. Wu, C. T. Chen, and C. C. Lee, “Efficiency enhancement of solution processed single layer blue phosphorescence organic light-emitting devices having co-host materials of polymer (PVK) and small molecule (SimCP2),” Journal of the Society for Information Display, vol. 19.4, pp. 330-336, 2011.[SCI]
[69]	S. W. Liu, C. C. Lee, K. Y. Wu, J. C. Huang, W. C. Su, C. F. Lin, C. T. Chen, Y. T. Tao, and J. H. Lee, “Stamped self-assembled monolayers on electrode for connecting organic light-emitting diodes and organic photovoltaics device,” Journal of Display Technology, vol. 7, pp.229-234, 2011.[SCI]
[70]	C. C. Lee, C. H. Yuan, S. W. Liu, and Y. S. Shih, "Efficient deep blue organic light-emitting diodes based on wide band gap 4-hydroxy-8-methyl-1,5-naphthyridine aluminum chelate as emitting and electron transporting layer," Journal of Display Technology, vol. 7, pp. 454-458, 2011.[SCI]
[71]	C. C. Lee, C. H. Yuan, S. W. Liu, L. A. Liu, and Y. S. Chen, "Solution-processed electrophosphorescent devices based on small-molecule mixed hosts," Journal of Display Technology, vol. 7, pp. 636-639, 2011.[SCI]
[72]	C. C. Lee, S. W. Liu, and Y. T. Chung, “Effect of deposition rate on device performance and lifetime of planar molecule-based organic light-emitting diodes,” Journal of Physics D: Applied Physics, vol. 43, p. 075102, 2010.[SCI]
[73]	S. W. Liu, C. C. Lee, C. F. Lin, J. C. Huang, C. T. Chen and J. H. Lee, “4-Hydroxy-8-methyl-1,5-naphthyridine aluminium chelate: a morphologically stable and efficient exciton-blocking material for organic photovoltaics with prolonged lifetime,” Journal of Materials Chemistry, vol. 20, p.7800-7806, 2010.[SCI]
[74]	S. W. Liu, C. C. Lee, H. L. Tai,, J. M. Wen, J. H. Lee and C. T. Chen, “In situ Electrical Characterization of the Thickness Dependence of Organic Field-Effect Transistors with 1-20 Molecular Monolayer of Pentacene,” ACS Applied Materials and Interfaces, vol. 2, p. 2282-2288, 2010.[SCI]
[75]	S. W. Liu, C. C. Lee, C. H. Wang, J. H. Lee, C. T. Chen, J. K. Wang, "Enhancing performance of planar molecule-based organic light-emitting diodes through deposition-rate optimization: Role of molecular packing," Chemical Physics Letters vol. 474, pp. 207-211, 2009.[SCI]
[76]	S. W. Liu, J. H. Lee, C. C. Lee, C. T. Chen and J. K. Wang, “Charge carrier mobility of mixed-layer organic light-emitting diodes,” Applied Physics Letters, vol. 91, p. 142106, 2007.[SCI]
[77]	C. C. Lee, M. Y. Chang, P. T. Huang, Y. C. Chen, Y. Chang and S. W. Liu, “Electrical and optical simulation of organic light-emitting devices with fluorescent dopant in the emitting layer,” Journal of Applied Physics, vol. 101, p. 114501, 2007.[SCI]
[78]	C. C. Lee, P. T. Huang, Y. D. Jong, Y. C. Chen, P. J. Hu and Y. Chang, “Numerical simulation of electrical model for organic light-emitting devices with fluorescent dopant in the emitting layer,” Japanese Journal of Applied Physics, vol. 44, no. 11A, p.8147-8152, 2005.[SCI]
[79]	C. C. Lee, M. Y. Chang, Y. D. Jong, T. W. Huang, C. S. Chu and Y. Chang, “Numerical simulation of electrical and optical characteristics of multilayer organic light-emitting devices,” Japanese Journal of Applied Physics, vol. 43, no. 11A, p.7560-7565, 2004.[SCI]
[80]

會議論文

[1]	Chun-Jen Shih, Ya-Ze Li, Shun-Wei Liu, and Chih-Chien Lee, “High External Quantum Efficiency of Modulated Exciplex Host Organic Light-Emitting Diodes,” Optics & Photonics Taiwan, International Conference 2016.
[2]	Ya-Ze Li, Chun-Jen Shih, Eing-Hao Chen, Bo-Chi Huang, Chih-Chien Lee, Jhih-Yan Guo, Shun-Wei Liu, “High current gain organic upconversion device using sublimated chloroaluminum phthalocyanine as a charge generation layer,” Active-Matrix Flatpanel Displays and Devices, July 2016, Kyoto, Japan.
[3]	Tzu-Hung Yeh, Po-Chien Chang, Ya-Ze Li, Shun-Wei Liu, Chen, S.-B., Chih-Chien Lee, “Highly efficient and inverted tandem organic light-emitting devices using a MoO3/Al/MoO3 charge generation layer,” Active-Matrix Flatpanel Displays and Devices, July 2016, Kyoto, Japan.
[4]	Jhih-Yan Guo, Ya-Ze Li, Tzu-Hung Yeh, Po-Chien Chang, Shun-Wei Liu, and Chih-Chien Lee, “Novel electron-injection layer for improving the accuracy in the space-charge limited current model and time-of-flight techniques,” Optics & Photonics Taiwan, International Conference 2015.
[5]	Jhih-Yan Guo, Ya-Ze Li, Po-Chien Chang, Tzu-Hung Yeh, Shun-Wei Liu, and Chih-Chien Lee, “Ultra-thin time-of-flight sample by using photovoltaic materials as charge-generation layer and novel device structure,” Optics & Photonics Taiwan, International Conference 2015.
[6]	Po-Chien Chang, Tzu-Hung Yeh, Jhih-Yan Guo, Ya-Ze Li, Shun-Wei Liu, and Chih-Chien Lee, “Novel near-infrared organic upconversion device with high sensitivity and imaging quality,” Optics & Photonics Taiwan, International Conference 2015.
[7]	Po-Chien Chang, Tzu-Hung Yeh, Jhih-Yan Guo, Ya-Ze Li, Shun-Wei Liu, and Chih-Chien Lee, “Novel near-infrared organic upconversion device with high sensitivity and imaging quality,” Optics & Photonics Taiwan, International Conference 2015.
[8]	Ya-Ze Li, Shao-Yu Lin, Tsung-Hao Su, Shun-Wei Liu and Chih-Chien Lee, “Efficiency improvement of current gain in organic up-conversion devices by maintaining hole blocking property at interface of anode/charge generation layer,” Active-Matrix Flatpanel Displays and Devices, July 2015, Kyoto, Japan.
[9]	Shao-Yu Lin, Shen-Bin Chen, Wen-Chang Chang, Kuan-Ting Chen, Shun-Wei Liu, and Chih-Chien Lee, “Inverted tandem organic light-emitting diodes with WO3/Ag/WO3 multilayer as intermediate connecting layer,” Optics & Photonics Taiwan, International Conference 2014.
[10]	Wen-Chang Chang, Yi-Sheng Shu, Wei-Cheng Su, Shun-Wei Liu, and Chih-Chien Lee, “Relating charge transfer state on the open-circuit voltage of small-molecular organic photovoltaic cells,” Optics & Photonics Taiwan, International Conference 2014.
[11]	Wei-Cheng Su, Chih-Chien Lee, Bo-Yao Huang and Wen-Chang Chang, “Understanding the open-circuit voltage of organic photovoltaic devices with donor deposited at different deposition rate,” Active-Matrix Flatpanel Displays and Devices, July 2014, Kyoto, Japan.
[12]	Chih-Hsien Yuan, Yu-Hsuan Liu, Kuan-Ting Chen, Wei-Cheng Su, An-Kuei Cheng, Sheng-Bin Chen, Chun-Feng Lin, Shun-Wei Liu, and Chih-Chien Lee, “Improved bi-directional illumination transparent white organic light-emitting diodes with asymmetric multilayer electrode . International Display Workshops, December 2013, Hokkaido, Japan.
[13]	Sheng-Bin Chen, Bo-Yao Huang, An-Kuei Cheng, Shao-Yu Lin, Shun-Wei Liu, and Chih-Chien Lee, “Functional Display Unit with High Contrast, Brightness-Decay Feedback, and Energy Conversion Consisting of Top Emitting Organic Light Diode and Photovoltaic Device,” Optics & Photonics Taiwan, International Conference 2013.
[14]	Chun-Feng Lin, Chih-Hsien Yuan, Yen-Chieh Chiu, Yu-Hsuan Liu, Kuan-Ting Chen, Zhe-Yu Lin, Wei-Cheng Su, Shun-Wei Liu, and Chih-Chien Lee, “Wide view-angle top-emitting organic light-emitting diodes based on green fluorescent dopant: Study on transparent electrode and angular characteristic,” International Display Workshops, December 2013, Hokkaido, Japan.
[15]	Ya-Ze Lee, Tsung-Hao Su, Chun-Feng Lin, Yu-Hsuan Liu, Kuan-Ting Chen, Chih-Chien Lee, and Shun-Wei Liu, ” Transparent green organic Light Emitting diodes with multilayer electrode and balanced bottom/top emitting ratio,” Optics & Photonics Taiwan, International Conference 2013.
[16]	Wei-Cheng Su, Chih-Hsien Yuan, An-Kuei Cheng, Sheng-Bin Chen, Chun-Feng Lin, Yen-Chieh Chiu, Zhe-Yu Lin, Shun-Wei Liu, and Chih-Chien Lee, “High efficiency orange-red phosphorescent Iridium(III) complexes for solution-processable organic light-emitting diode based on small-molecule mixed host. International Display Workshops, December 2013, Hokkaido, Japan.
[17]	Wei-Cheng Su, Chih-Hsien Yuan, An-Kuei Cheng, Sheng-Bin Chen, Chun-Feng Lin, Yen-Chieh Chiu, Zhe-Yu Lin, Shun-Wei Liu, and Chih-Chien Lee, “High efficiency orange-red phosphorescent Iridium(III) complexes for solution-processable organic light-emitting diode based on small-molecule mixed host. International Display Workshops, December 2013, Hokkaido, Japan.
[18]	Chun-Feng Lin, Chih-Hsien Yuan, Yen-Chieh Chiu, Yu-Hsuan Liu, Kuan-Ting Chen, Zhe-Yu Lin, Wei-Cheng Su, Shun-Wei Liu, and Chih-Chien Lee, “Wide view-angle top-emitting organic light-emitting diodes based on green fluorescent dopant: Study on transparent electrode and angular characteristic,” International Display Workshops, December 2013, Hokkaido, Japan.
[19]	Chih-Hsien Yuan, Yu-Hsuan Liu, Kuan-Ting Chen, Wei-Cheng Su, An-Kuei Cheng, Sheng-Bin Chen, Chun-Feng Lin, Shun-Wei Liu, and Chih-Chien Lee “Improved bi-directional illumination transparent white organic light-emitting diodes with asymmetric multilayer electrode . International Display Workshops, December 2013, Hokkaido, Japan.
[20]	Shun-Wei Liu, Wei-Cheng Su, Chih-Chien Lee, Wei-Lun Wang, Je-Min Wen, Yu-Hsuan Ho, and Chun-Feng Lin, “Characterization of Intrinsic Hysteresis of Pentacene-based Organic Thin-Film Transistor through In-Situ Electrical Measurement,” Active-Matrix Flatpanel Displays and Devices, July 2013, Kyoto, Japan.
[21]	Shun-Wei Liu, Chih-Chien Lee, Chun-Feng Lin, Chia-Chang Chou, Bo-Yao Huang, Ching-Wei Cheng, and Wei-Cheng Su (2013, Jul). “Effect of Molybdenum Oxide on Subphthlocyanine/C60 Planar Heterojunction Organic Photovltaic Device,” Active-Matrix Flatpanel Displays and Devices, July 2013, Kyoto, Japan.
[22]	Yu-San Chen, Cheng-Chieh Li, Chang-Lun Luan, Shao-Yu Lin, Yu-Li Wang, Shun-Wei Liu, and Chih-Chien Lee, “High efficiency green organic light-emitting diode: A novel interconnecting layer of molybdenum (IV) oxide for tandem structure,” Optics and Photonics Taiwan, International Conference, December 2012, Taipei, Taiwan.
[23]	Wei-Lun Wang, Ho-Chien Chen, Chen-Huan Chen, Shun-Wei Liu, and Chih-Chien Lee,“ In situ measurement of pentacene-based organic thin film-transistor with different ambient gases,” Optics and Photonics Taiwan, International Conference, December 2012, Taipei, Taiwan.
[24]	Pao-Chen Lai,Yu-San Chen, An-Kuei Cheng, Chang-Lun Luan, Shun-Wei Liu, and Chih-Chien Lee, “Improving hole-injection for constructing highly efficient top-emitting organic light-emitting diode,” Optics and Photonics Taiwan, International Conference, December 2012, Taipei, Taiwan.
[25]	Ho-Chien Chen, Wei-Lun Wang, Je-Min Wen, Shun-Wei Liu, and Chih-Chien Lee, “Improved CuPc Thin Film Transistors with Parallel Electric Field in Manufacturing Process,” Optics and Photonics Taiwan, International Conference, December 2012, Taipei, Taiwan.
[26]	Ching-Wen Cheng, Bo-Yao Huang, Wei-Cheng Su, Chien-Hua Wu, Chun-Hao Wang, Shun-Wei Liu, and Chih-Chien Lee, “Efficient subphthalocyanine/C70 photovoltaic devices through optimized the electrical and optical properties,” Optics and Photonics Taiwan, International Conference, December 2012, Taipei, Taiwan.
[27]	Bo-Yao Huang, Ching-Wen Cheng, Wei-Cheng Su, Chien-Hua Wu, Chun-Hao Wang, Shun-Wei Liu, and Chih-Chien Lee, “Enhancement in the Power Conversion Efficiency of Organic Photovoltaic Device: A Study of Deposition Rate of Subphthalocyanine Electron Donor,” Optics and Photonics Taiwan, International Conference, December 2012, Taipei, Taiwan.
[28]	An-Kuei Cheng,Yu-San Chen, Po-Cheng Lai, Chang-Lun Luan, Shun-Wei Liu, and Chih-Chien Lee, “Transparent Organic Light Emitting Diodes with WO3/Ag/WO3 Multilayer as Anode and Cathode Electrodes,” Optics and Photonics Taiwan, International Conference, December 2012, Taipei, Taiwan.
[29]	Wei-Cheng Su, Shun-Wei Liu, Ching-Wen Cheng, Chia-Chang Chou, Jia-Cing Huang, and Chih-Chien Lee, “Efficient planar-mixed heterojunction photovoltaic device based on subphthalocyanine:C70 sturcture. SPIE Optics+Photonics, August 2012, San Diego, California, USA.
[30]	Chih-Hsien Yuan, Li-An Liu, Yu-Sen Chen, Pao-Chen Lai, Chih-Chien Lee, and Shun-Wei Liu, “High efficiency green electrophosphorescent organic light-emitting diodes with a simple device structure,” SPIE Optics+Photonics, August 2012, San Diego, California, USA.
[31]	S. W. Liu, W. C. Su, and C. C. Lee, “Organic photovoltaic cells employing arylamnino-substituted fumaronitrile as small molecular electron donor,” International Conference on Advanced Electromaterials (ICAE) 2011, Jeju, Korea, 2011-11-08.
[32]	S. W. Liu, C. C. Lee, and W. C. Su, “Highly efficient organic bifunctional devies with photovoltaic and electroluminescent properties,” International Conference on Advanced Electromaterials (ICAE) 2011, Jeju, Korea.
[33]	S. W. Liu, C. F. Lin, C. C. Lee, and C. H. Yuan, “Unusual s-shape caused by injection limited in planar heterojunction organic photovoltaic device,” International Conference on Advanced Electromaterials (ICAE) 2011, Jeju, Korea.
[34]	S. W. Liu, C. C. Lee, C. H. Yuan, L. A. Liu, and Y. S. Chen, “Solution processed single layer orange-red electrophosphorescent organic light-emitting diodes using SimCP2 and OXD-7 as the mixed host,” International Conference on Advanced Electromaterials (ICAE) 2011, Jeju, Korea.
[35]	J. C. Huang, W. C. Su, C. F. Lin, Y. T. Chang, S. W. Liu and C. C. Lee, “Postannealing effects on pentacene/C60 photovoltaic device,” SPIE 2010.
[36]	W. C. Su, J. C. Huang, C. C. Lee, C. F. Lin, Y. T. Chang and S. W. Liu, “Degradation mechanism of organic photovoltaic devices,” SPIE 2010.
[37]	C. H. Wang, W. C. Su, J. C. Huang, C. F. Lin, S. W. Liu and C. C. Lee, “Effects of molecular packing in CuPc/C60 based photovoltaic device: Temperature dependence,” International Conference on Optics and Photonics in Taiwan, December 2010, Tainan, Taiwan.
[38]	J. C. Huang, W. C. Su, S. W. Liu, C. F. Lin and C. C. Lee, “Thermal effects on pentacene/C60 photovoltaic device,” International Conference on Optics and Photonics in Taiwan, December 2010, Tainan, Taiwan.
[39]	H. Lin, Y. S. Chen, C. E. Lin, Y. T. Chang, L. A. Liu and C. C. Lee, “Highly efficient solution processed blue organic electrophosphorescence with brightness enhancement film,” International Conference on Optics and Photonics in Taiwan, December 2010, Tainan, Taiwan.
[40]	Y. S. Chen, H. Lin, A. K. Cheng, C. H. Yuan, C. Y. Ting and C. C. Lee, “Efficient 3,5-di(9H-carbazol-9-yl)tetraphenysilane host material for solution processed single layer blue-emitting phosphorescent devices,” International Conference on Optics and Photonics in Taiwan, December 2010, Tainan, Taiwan.
[41]	S. W. Liu, C. C. Lee, J. C. Huang, C. F. Lin, J. H. Lee, and C. T. Chen, “Connecting architecture for organic light-emitting diodes integrated with organic photovoltaic device,” Society for Information Display’s (SID) conference 2010, Seattle, Washington, USA, 2010-05-23.
[42]	J. M. Wen, H. Y. Chen, Y. S. Chen, Y. C. Chao, C. H. Wang, S. C. Su, S. W. Liu and C. C. Lee, “High performance of pentacene thin film transistor with self-assembled monolayer/silver electrode,” International Conference on Optics and Photonics in Taiwan, December 2010, Tainan, Taiwan.
[43]	C. C. Lee, J. C. Huang, C. H. Wang, S. W. Liu, and C. F. Lin, “Organic tandem device integrated with electroluminance and photovoltaic properties,” IDMC 2009 Proceeding.
[44]	袁知賢,鍾育廷,李志堅,“可撓性單層藍色磷光有機發光二極體,”Optics and Photonics Taiwan, December 2009, Taipei, Taiwan.
[45]	W. C. Su, J. C. Huang, and C. C. Lee, “Enhancing performance of organic photovoltaic devices: Charge balance of hole and electron,” Optics and Photonics Taiwan, December 2009, Taipei, Taiwan.
[46]	J. C. Huang, W. C. Su, and C. C. Lee, “4-hydroxy-8-methyl-1,5,naphthyridine aluminum chelate as efficient and stabile exciton-blocking molecular material for organic photovoltaics,” Optics and Photonics Taiwan, December 2009, Taipei, Taiwan.
[47]	L. A. Liu, Y. T. Chung, and C. C. Lee, “Effect of deposition rate on device performance and lifetime of planar molecule-based organic light-emitting diodes,” Optics and Photonics Taiwan, December 2009, Taipei, Taiwan.
[48]	S. W. Liu, C. H. Wang, Y. J. Huang, C. C. Lee, C. T. Chen and J. K. Wang, “Influences of film deposition rate on performance of planar molecule-based organic light-emitting diodes,” 2008 Taiwan Display Conference, June 2008, Taipei, Taiwan.
[49]	Y. J. Huang, W. C. Su, S. W. Liu, C. C. Lee, J. K. Wang, and C. T. Chen, “Effect of cathode electrode on the performance of poly(3-hexylthiophene) and [6,6]-phenyl C61-butyric acid methyl ester bulk heterojunction solar cell,” MACRO 2008, June 2008, Taipei, Taiwan.
[50]	Y. J. Huang, W. C. Su, S. W. Liu, C. C. Lee, J. K. Wang, and C. T. Chen, “Effect of cathode electrode on the performance of poly(3-hexylthiophene) and [6,6]-phenyl C61-butyric acid methyl ester bulk heterojunction solar cell,” MACRO 2008, June 2008, Taipei, Taiwan.
[51]	C. H. Wang, J. C. Huang, S. W. Liu, C. C. Lee, P. T. Huang, C. T. Chen and J. K. Wang, “Solvent dependence of carrier transport properties in poly(3-hexylthiophene) and [6,6]-phenyl C61-butyric acid methyl ester blends,” MACRO 2008, June 2008, Taipei, Taiwan.
[52]	S. W. Liu, J. C. Huang, W. C. Su, C. C. Lee, C. T. Chen and J. K. Wang, “Ambipolar charge transport in air-stable organic heterostructure field-effect transistors,” MRS Fall Meeting, December 2008, Boston, MA, USA.
[53]	C. H. Wang, Y. J. Huang, S. W. Liu, C. C. Lee, P. T. Huang, C. T. Chen and J. K. Wang, “Processing solvent, weight fraction of [6,6]-phenyl C61-butyric acid methyl ester, and molecular weight of poly(3-hexylthiophene) dependences : Charge transporting studies of P3HT/PCBM bulk heterojunction photovoltaics,” MRS Fall Meeting, December 2008, Boston, MA, USA.
[54]	C. H. Yuan, Y. T. Chung, W. C. Su, C. C. Lee and C. T. Chen, “Phosphorescent Organic Light-Emitting Devices with Flexible Structure,” Optics and Photonics Taiwan, December 2008, Taipei, Taiwan.
[55]	C. H. Wang, J. C. Huang, S. W. Liu, C. F. Lin and C. C. Lee, “Top Emission Organic Light-emitting Diode and Organic Solar Cell Tandem Device,” Optics and Photonics Taiwan, December 2008, Taipei, Taiwan.
[56]	C. H. Wang, J. C. Huang, S. W. Liu, C. C. Lee, P. T. Huang, C. T. Chen and J. K. Wang, “Solvent dependence of carrier transport properties in poly(3-hexylthiophene) and [6,6]-phenyl C61-butyric acid methyl ester blends,” MACRO 2008, June 2008, Taipei, Taiwan.
[57]	S. W. Liu, J. C. Huang, W. C. Su, C. C. Lee, C. T. Chen and J. K. Wang, “Ambipolar charge transport in air-stable organic heterostructure field-effect transistors,” MRS Fall Meeting, December 2008, Boston, MA, USA.
[58]	C. H. Wang, Y. J. Huang, S. W. Liu, C. C. Lee, P. T. Huang, C. T. Chen and J. K. Wang, “Processing solvent, weight fraction of [6,6]-phenyl C61-butyric acid methyl ester, and molecular weight of poly(3-hexylthiophene) dependences : Charge transporting studies of P3HT/PCBM bulk heterojunction photovoltaics,” MRS Fall Meeting, December 2008, Boston, MA, USA.
[59]	C. H. Yuan, Y. T. Chung, W. C. Su, C. C. Lee and C. T. Chen, “Phosphorescent Organic Light-Emitting Devices with Flexible Structure,” Optics and Photonics Taiwan, December 2008, Taipei, Taiwan.
[60]	C. H. Wang, J. C. Huang, S. W. Liu, C. F. Lin and C. C. Lee, “Top Emission Organic Light-emitting Diode and Organic Solar Cell Tandem Device,” Optics and Photonics Taiwan, December 2008, Taipei, Taiwan.
[61]	S. W. Liu, C. C. Lee, C. T. Chen and J. K. Wang, “Improving Stability of Pentacene Field-Effect Transistors with Post-Annealing,” MRS Fall Meeting, November 2007, Boston, MA, USA.
[62]	S. W. Liu, C. C. Lee, P. T. Huang, C. T. Chen and J. K. Wang, “Efficient Thin Polymer Solar Cells with Post-Annealing,” MRS Fall Meeting, November 2007, Boston, MA, USA.
[63]	S. W. Liu, G. J. Huang, C. C. Lee, C. T. Chen, and J. K. Wang*, “Bipolar charge transport and electroluminescent properties of bis(10-hydroxybenzo[h]qinolinato) beryllium: Dependence on deposition rate” Proceedings of IDMC’07, July. 2007, Taipei, Taiwan.
[64]	S. W. Liu, J. K. Wang, C. T. Chen, C. C. Lee and Y. Chang, “Recovery behavior of mixed layer organic light-emitting devices,” Proceedings of SPIE , vol. 5937, July 2005, San Diego, CA, USA.
[65]	J. H. Lee, C. C. Liao, C. C. Lee, P. J. Hu, and Y. Chang, “Study on operation lifetime of organic light emitting device,” The Pacific Rim Conference on Lasers and Electro-Optics, December 15-19, 2003, Taipei, Taiwan.
[66]	C. C. Lee, Y. Chang, M. Y. Chang and J. H. Lee, “Numerical Simulation Electrical and Optical Characteristics of Organic Light-Emitting Device,” Proceedings of IDMC’03, Feb. 2003, Taipei, Taiwan.

專利

著作

其他

研究成果

研究計畫

計畫名稱	計畫總額	執行始於	執行結束	委託單位
具有極高感度與響應和極低暗電流密度之全蒸鍍型、非富勒烯受體、可見光有機感測器	1,090,000	11308	11407	科技部
具高穩定度之模組化蒸鍍型小分子有機太陽能電池與電源管理器之開發	2,272,000	11108	11307	科技部
彩色化有機太陽能電池:變色電極與薄膜封裝製程之開發	927,000	11008	11107	科技部
蒸鍍型極弱光有機光偵測器:具有低暗電流與高感測特性之製程開發	1,035,000	10908	11007	科技部
高效率激發錯體型近紅外光有機發光二極體之研製	1,074,000	10808	10907	科技部
高效率錯體型有機發光二極體元件: 新型電洞/電子錯體發光層之研製	1,704,000	10608	10807	科技部
利用有機太陽能元件之電致發光與外部量子效率探討開路電壓的物理機制：應用與研究	944,000	10508	10607	科技部
非銦錫氧化物型有機發光二極體之倒置串座結構開發與研究	743,000	10408	10507	科技部
有機薄膜型近紅外光轉換夜視鏡光電元件：薄型化與高解析成像系統開發(I)	1,035,000	10401	10412	科技部(國防科技研究計畫)
具有長壽命之交流脈衝驅動之有機發光二極體：驅動方式與照明應用之研究	720,000	10301	10312	國科會(能源科技代辦計畫)
具光衰退回饋補正之有機發光二極體顯示面板	597,000	10211	10310	國科會補助產學合作計畫
有機太陽能電池開路電壓研究及探討	1,051,000	10208	10307	國科會
有機串座元件之連接層結構開發、原理模型建立及高效率白光二極體應用	900,00	10108	10207	國科會
濕式製程之高效率單層白光有機電致發光之開發及其元件物理和機制之研究	705,000	10008	10107	國科會
新型有機太陽能電池：光學模擬模型及元件開發之研究	510,000	9901	9912	國科會
具有電致發光及光伏打特性之有機串座元件	766,000	9808	9907	國科會
白光有機發光二極體：高效率元件製作及元件模擬	613,000	9608	9707	國科會

指導學生

博士生

學年	論文題目	學生
112	金屬鹵化物鈣鈦礦材料與開發高效率、超高亮度、以及具有穩定度鈣鈦礦發光二極體之研究	康約翰
112	透過全真空蒸鍍製程開發有機/無機鈣鈦礦材料和光電元件	盧祈明
111	高靈敏度、快速響應時間和真空蒸鍍小分子有機光電感測器：探索元件之設計和操作機制	黃木槤
105	電激發光與外部量子效率應用於有機太陽能元件開路電壓之物理機制探討與研究	蘇韋丞
103	有機上轉換元件：原理分析與結構研製	袁知賢

碩士生

學年	論文題目	學生
113	全蒸鍍型有機無機鈣鈦礦太陽能電池開發與模組之應用	陳冠宏
113	含咔唑有機分子的共主體激發錯合物材料用於高效率有機發光元件之研究	洪偉芸
113	新型大環施體材料及氰基修飾高效率紅色磷光材料在有機發光二極體中之應用	石晉三
113	透過強氙燈處理加速ZnO層退火以提升倒置型聚合物太陽能電池之穩定性	古珮均
113	高效近紅外鈣鈦礦發光二極體之開發與優化	鄧翔仁
112	研究透過結構異構實現擴展光色範圍之銥金屬錯合物	謝佳勳
112	高效率有機發光二極體元件：非銦鍚氧化物、倒置型、上發光之元件結構開發	吳得峻
112	用於提升OLED 外部量子效率之微透鏡陣列研究	許維倫
111	蒸鍍型有機混無機鹵化鈣鈦礦薄膜之應用	郭孟學
111	透過螢光敏化劑實現發光主峰為820 nm近紅外光OLED之研究	林鈺致
111	超輕薄型高分子有機太陽能電池穩定性之研究	李永元
109	透明綠光有機發光二極體研究以及大面積元件製作	李柏寬
109	高效率和長壽命綠光串聯元件之研究	陳威宇
109	利用多層合金為ITO-Free陽極之高效率深紅光有機發光二極體	陳婕昕
109	以新穎供體與發光體材料製作高外部量子效率的近紅外之有機發光二極體之研究	陳柏霖
109	半透明大面積有機太陽能電池開發	李建誼
109	共蒸鍍型鈣鈦礦薄膜之研製	牟家慶
108	高效率白光激發錯合體系統之磷光有機發光二極體	謝靜箖
108	高穿透式有機太陽能電池	李孟榛
108	開發高穿透及低霧度之聚一氯對二甲苯基板製程技術	池可允
108	超輕薄ITO-free上入光有機太陽能電池開發	邱偉哲
108	具超高亮度與深紅光之ITO-free共振腔之有機發光二極體	柳廷昌
107	高效率激發錯合體摻雜紅色螢光材料之有機發光二極體	蔡博安
107	高效率近紅外光有機光感測器使用穿透式WO3/Ag/WO3多層膜電極之研製	李依樺
107	高開路電壓有機光伏打電池 : 分子結構對元件特性影響之研究	王雍皓
107	具多層膜共振腔電極之可視穿變色高效率有機光伏元件研製	李沿德
106	有機光感測器 : 利用有機阻擋層降低元件暗電流之機制探討	任翔偵
106	高效率紅色螢光錯體有機發光二極體之研製	吳侑唐
106	酞菁氯化鋁載子拆解層應用於改善有機上轉換元件電流增益效果之研究	劉哲維
105	具有高電流增益值與轉換效率之有機近紅外光上轉換元件	黃柏齊
105	室溫濺鍍氧化銦錫電極於激發複合物摻雜綠色磷光系統之高效率有機發光二極體應用	施淳仁
105	高效率錯體有機發光二極體元件: 元件特性與操作壽命之探討	陳映豪
103	有機光電能量轉換元件：探討電流增益之操作機制	林紹宇
103	複合式穿透式電極用於有機發光二極體之應用與研究	鄭安逵
103	高效率小分子層疊光伏打元件：元件結構最佳化與電激發光量測法之探討	張文彰
102	複合式薄膜電極與倒置式串座有機發光二極體之研究與應用	陳聖斌
102	以共蒸鍍製備氯鋁鈦菁與碳七十小分子有機太陽能元件之最佳化研究與探討	黃柏堯
101	穿透式電極於具獨立操控功能之垂直堆疊有機發光二極體元件之應用與研究	陳友三
101	以真空蒸鍍即時量測法探討有機薄膜電晶體之遲滯現象	王暐綸
101	聚醯亞胺基板應用於可撓式有機發光二極體	賴柏丞
101	以共蒸鍍製備氯化硼亞酞菁與碳七十小分子有機太陽能元件之最佳化研究與探討	鄭景文
100	以真空蒸鍍即時量測法探討n型與p型有機薄膜電晶體膜厚相依性與CMOS inverter(反相器)製作	溫哲民
100	高效率綠光有機發光二極體應用於串接結構之光電特性與連接層研究	劉勵安
100	ITO陽極微結構對有機光電異質接面元件在功率轉換效率的改善	周佳璋
99	以不同熱蒸鍍法製備之氯化硼亞酞菁小分子有機太陽能電池之元件效率與衰退機制探討	黃嘉慶
99	新型態有機施體型材料雙萘苯胺苯丁烯二腈於有機光電子元件之研究	蘇韋丞
98	蒸鍍速率對類平面分子的有機發光二極體	鍾育廷
98	有機小分子太陽能電池：製程基板溫度對元件電性	王執翰
98	高效率小分子雙載子極性傳輸材料於單層濕式製程有機發光二極體之應用與研究	袁知賢
98	五環素有機場效電晶體載子傳輸機制探討	戴宏霖
97	電容式觸控設計於ITO應用	陳偉毅
95	鍍率對金屬錯合物應用於有機發光二極體電荷傳輸及電激特性之研究	黃國鈞
95	改變陰極對有機薄膜太陽能電池之研究	廖啟鈞

指導專題

學年	專題題目	學生
99	有機光電元件製作與量測	楊鎮光
99	以有機半導體量測法探討有機半導體材料載子傳輸特性	王證鈜
99	富勒烯(C60)有機薄膜電晶體：元件製作及傳輸探討	趙顗捷
98	High efficiency organic solar cell with mixing donor layer	張叡豪
98	有機光電元件製作與量測	林廷瑋.黃柏堯
98	電子傳輸層對有機發光二極體元件特性之探討	林暉
98	有機光電元件製作與量測	陳友三
98	Encapsulation of organic Light-emitting devices by means of photopolymerized polyacry late films	張安裕
98	小分子單層磷光發光二極體	王暐綸
97	有機光電元件製作與量測	溫哲民
97	有機光電元件製作與量測	林裕瑋
97	有機光電元件製作與量測	劉勵安
96	有機薄膜太陽能元件製作與量測	黃嘉慶, 蘇韋丞
95	OLED光學模擬	馬亞祺
94	OLED光學模擬	劉柏宏, 高冠勤,丁中一

特殊榮譽

年份	事蹟
2008	2008北北區影像顯示技術專題實作競賽特優 (王執翰、黃嘉慶)
2008	2008北北區影像顯示技術專題實作競賽佳作 (袁知賢、鍾育廷、蘇韋丞)
2008	2008全國影像顯示技術專題實作競賽佳作 (王執翰、黃嘉慶)