成員介紹

Member Introduction

師資陣容

獲獎經歷

  • 111 academic year, outstanding papers award at Feng Chia University (111學年度論文著作傑出獎)
  • 110 academic year, excellent teacher award at Feng Chia University (110學年度績優教師獎)
  • 110 academic year, outstanding papers award at Feng Chia University (110學年度論文著作傑出獎)
  • Special talented person award, Ministry of Science and Technology, Taiwan (科技部補助大專校院延攬特殊優秀人才獎勵) (2016–present)
  • 109 academic year, outstanding papers award at Feng Chia University (109學年度論文著作傑出獎)
  • Academia Sinica “Domestic scholars short-term visit research award” (109年中央研究院國內學人短期訪問研究獎) 
  • 108 academic year, excellent teacher award at Feng Chia University (108學年度績優教師獎)
  • 108 academic year, outstanding papers award at Feng Chia University (108學年度論文著作傑出獎)
  • Academia Sinica “Domestic scholars short-term visit research award” (108年中央研究院國內學人短期訪問研究獎)
  • Excellent mentor award at Feng Chia University (優良導師獎)
  • Top 10% excellent teaching at Feng Chia University: “Fiber physics”, “General Chemistry”, and “Introduction to Organic Optoelectronic Materials”, “Thermodynamics”

研究領域

  • 奈米複合材料 Nanocomposites
  • 有機太陽能電池 Organic solar cells
  • 鈣鈦礦太陽能電池 Perovskite solar cells
  • 再生能源儲存與轉換技術 Renewable energy storage and conversion technologies
  • 穿戴式與可攜式電子元件 Wearable and portable electronic devices
  • 清潔能源開發 Development of clean energy

「能源與光電元件」實驗室

歡迎來到陳協志教授的研究小組。 我們的團隊專注於導電小分子、共軛高分子、量子點和富碳材料的開發。 我們的目標是創造適合穿戴式電子產品、可撓性光電元件以及能量儲存與轉換元件。我們致力於探索先進能源材料的基本光學、電學、物理化學、電化學及光伏特性。 我們的主要目標是開發創新材料並應用於各種新穎光電元件。

Welcome to the Research Group of Prof. Hsieh-Chih Chen. Our team focuses on harnessing the potential of conducting small molecules, conjugated polymers, quantum dots, and carbon-rich materials. Our aim is to create functional materials tailored for wearable electronics, flexible optoelectronics, and devices for energy storage and conversion. We are dedicated to exploring the fundamental optical, electrical, physical, electrochemical, and photovoltaic properties of advanced energy materials. Our primary goal is to uncover innovative materials and devise novel architectures for use in various technological applications.

學術著作

  1. Chieh-Ming Hung, Chi-Chi Wu, Yu-Hsuan Yang, Bo-Han Chen, Chih-Hsuan Lu, Che-Chun Chu, Chun-Hao Cheng, Chun-Yun Yang, Yan-Ding Lin, Ching-Hsuan Cheng, Jiann-Yeu Chen, I-Chih Ni, Chih-I Wu, Shang-Da Yang, Hsieh-Chih Chen*, and Pi-Tai Chou*, “Repairing Interfacial Defects in Self-Assembled Monolayers for High-Efficiency Perovskite Solar Cells and Organic Photovoltaics through the SAM@Pseudo-Planar Monolayer Strategy” Advanced Science 2024, 11, 2404725. (SCI, IF: 14.3)
  2. Chieh-Ming Hung,  Chi-Lun Mai,  Chi-Chi Wu,  Bo-Han Chen,  Chih-Hsuan Lu,  Che-Chun Chu,  Meng-Chuan Wang,  Shang-Da Yang,  Hsieh-Chih Chen*,  Chen-Yu Yeh*,  and Pi-Tai Chou*, “Self-assembled monolayers of bi-functionalized porphyrins: a novel class of hole-layer-coordinating perovskites and indium tin oxide in inverted solar cells” Angewandte Chemie International Edition 2023, 62, e202309831. (SCI, IF: 16.6)
  3. Chieh-Ming Hung, Chi-Chi Wu, Po-Hsiung Tsao, Chia-Di Lung, Chih-Hsing Wang, I-Chih Ni, Che-Chun Chu, Chun-Hao Cheng, Wen-Yang Kuang, Chih-I Wu, Hsieh-Chih Chen*, Yi-Tsu Chan*, and Pi-Tai Chou*, “Functionalization of donor–π–acceptor hole transport materials enhances crystallization and defect passivation in inverted perovskite solar cells: achieving power conversion efficiency >21% (area: 1.96 cm2) and impressive stability” Advanced Energy and Sustainability Research 2023, 4, 2300042. (SCI, IF: 7.1)
  4. Febri Baskoro, Pin-Chieh Chiang, Yao-Chih Lu, Jonathan N. Patricio, Susan D. Arco, Hsieh-Chih Chen, Wen-Shyong Kuo, Long-Li Lai*, Hung-Ju Yen*, “Columnar liquid-crystalline triazine-based dendrimer with carbon nanotube filler for efficient organic lithium-ion batteries” Electrochimica Acta 2022, 434, 141306. (SCI, IF: 6.6)
  5. Hsieh-Chih Chen*, Liang-Yu Hou, Chuyue He, Pei-Jung Laing, Ching-Yung Huang, and Wen-Shyong Kuo, “Metal–organic framework-assisted synthesis of three-dimensional ZnCoS effloresced nanopillars@CNT paper for high-performance flexible all-solid-state battery-type supercapacitors with ultrahigh specific capacitance” ACS Applied Energy Materials 2022, 5, 8262-8272.  (SCI, IF: 6.4)
  6. Chieh-Ming Hung, Jin-Tai Lin, Yu-Hsuan Yang, Yi-Chun Liu, Mong-Wen Gu, Tai-Che Chou, Sheng-Fu Wang, Zi-Qin Chen, Chi-Chi Wu, Li-Cyun Chen, Cheng-Chih Hsu, Chun-Hsien Chen, Ching-Wen Chiu, Hsieh-Chih Chen*, and Pi-Tai Chou*, “Modulation of perovskites grain boundaries by electron donor-acceptor zwitterions r,r-diphenylamino-phenyl-pyridinium-(CH2)n-sulfonates: all-round improvement on the solar cell performance” JACS Au 2022, 2, 1189-1199. (SCI, IF: 8.0)
  7. Hsieh-Chih Chen*, Chieh-Ming Hung, and Chun-Hong Kuo,”Synergistic engineering of natural carnitine molecule allowing for efficient and stable inverted perovskite solar cells” ACS Applied Materials & Interfaces 2021, 13, 8595-8605. (SCI, IF: 9.5)
  8. Yun-Ju Chiang, Yi-Hsuan Hsiao, Yu-Hsuan Chen, Chieh-Ming Hung, Hsieh-Chih Chen*, and Chen-Yu Yeh*, “All-porphyrin photovoltaics with power conversion efficiency of 7.2%” ACS Energy Letters 2020, 5, 2641-2650. (SCI, IF: 22.0)
  9. Ming-Chi Tsai, Chieh-Ming Hung, Zi-Qin Chen, Yi-Chieh Chiu, Hsieh-Chih Chen*, and Ching-Yao Lin*, “Design of new n-type porphyrin acceptors with subtle side-chain engineering for efficient nonfullerene solar cells with low energy loss and optoelectronic response covering the near-infrared region” ACS Applied Materials & Interfaces 2019, 11, 45991-45998. (SCI, IF: 9.5)
  10. Hsieh-Chih Chen*, Yi-Cih Lin, Yan-Lin Chen, and Chi-Jen Chen, “Facile fabrication of three-dimensional hierarchical nanoarchitectures of VO2/graphene@NiS2 hybrid aerogel for high-performance all-solid-state asymmetric supercapacitors with ultrahigh energy density” ACS Applied Energy Materials 2019, 2, 459-467. (SCI, IF: 6.4)
  11. Shu-Hua Chou, Hsieh-Chih Chen*, Chun-Kai Wang, Chin-Lung Chung, Chieh-Ming Hung, Jung-Chun Hsu, and Ken-Tsung Wong*, “Synthesis and characterization of new asymmetric thieno[3,4-b]pyrazine-based D−π−A−A type small molecular donors with near-infrared absorption and their photovoltaic applications” Organic Electronics 2019, 68, 159-167. (SCI, IF: 3.2)
  12. Chin-Lung Chung, Hsieh-Chih Chen*, Yun-Siou Yang, Wei-Yao Tung, Jian-Wei Chen, Wen-Chang Chen, Chun-Guey Wu, and Ken-Tsung Wong*, “S,N-heteroacene-based copolymers for highly efficient organic field effect transistors and organic solar cells: critical impact of aromatic subunits in ladder π-system” ACS Applied Materials & Interfaces 2018, 10, 6471-6483. (SCI, IF: 9.5)
  13. Yu-Qi Wu, Hsieh-Chih Chen*, Yun-Siou Yang, Sheng Hsiung Chang, Pin-Jiun Wu, Yen-Yi Chu, and Chun-Guey Wu*, “Comprehensive study of pyrido[3,4-b]pyrazine-based D−π−A copolymer for efficient polymer solar cells” Journal of Polymer Science Part A: Polymer Chemistry 2016, 54, 1822-1833. (SCI, IF: 2.9)
  14. Chien Lu, Hsieh-Chih Chen*, Wei-Ti Chuang, Yen-Hao Hsu, Wen-Chang Chen*, and Pi-Tai Chou*, “Interplay of molecular orientation, film formation, and optoelectronic properties on isoindigo- and thienoisoindigo-based copolymers for organic field effect transistor and organic photovoltaic applications” Chemistry of Materials 2015, 27, 6837-6847. (SCI, IF: 8.6)
  15. Zhiyun Zhang, Francis Lin, Hsieh-Chih Chen*, Hung-Chin Wu, Chin-Lung Chung, Chien Lu, Shih-Hung Liu, Shih-Huang Tung, Wen-Chang Chen, Ken-Tsung Wong* and Pi-Tai Chou*, “A silole copolymer containing a ladder-type heptacylic arene and naphthobisoxadiazole moieties for highly efficient polymer solar cells” Energy & Environmental Science 2015, 8, 552-556. (SCI, IF: 32.5)
  16. Wei-Hsuan Tseng, Chun-Ya Chiu, Shang-Wei Chou, Hsieh-Chih Chen, Meng-Lin Tsai, Ya-Ching Kuo, Der-Hsien Lien, Yu-Chi Tsao, Kuo-You Huang, Chih-Ting Yeh, Jr-Hau He, Chih-I Wu*, Michael H. Huang*, and Pi-Tai Chou*, “Shape-dependent light harvesting of 3-D gold nanocrystals on bulk heterojunction solar cells: plasmonic or optical scattering effect?” Journal of Physical Chemistry C 2015, 119, 7554-7564. (SCI, IF: 3.7)
  17. Shang-Wei Chou, Hsieh-Chih Chen*, Zhiyun Zhang, Wei-Hsuan Tseng, Chih-I Wu, Ya-Yun Yang, Ching-Yen Lin, and Pi-Tai Chou*, “Strategic Design of Three-Dimensional (3D) Urchin-Like Pt–Ni Nanoalloys: How This Unique Nanostructure Boosts the Bulk Heterojunction Polymer Solar Cells Efficiency to 8.48%” Chemistry of Materials 2014, 26, 7029-7038. (SCI, IF: 8.6)
  18. Wei-Hsuan Tseng, Hsieh-Chih Chen*, Yun-Chen Chien, Chi-Chang Liu, Yung-Kang Peng, Yu-Sin Wu, Jung-Hung Chang, Shih-Hung Liu, Shang-Wei Chou, Chien-Liang Liu, Ying-Hsiao Chen, Chih-I. Wu*, and Pi-Tai Chou*, “Comprehensive study of medium-bandgap conjugated polymer merging a fluorinated quinoxaline with branched side chains for high-efficient and air-stable polymer solar cells” Journal of Materials Chemistry A 2014, 2, 20203-20212. (SCI, IF: 11.9)
  19. Chien-Liang Liu, Yung-Kang Peng, Shang-Wei Chou, Wei-Hsuan Tseng, Yu-Jui Tseng, Hsieh-Chih Chen, Jong-Kai Hsiao*, and Pi-Tai Chou*, “One-step, room-temperature synthesis of glutathione-capped iron-oxide nanoparticles and their application in in vivo T1-weighted magnetic resonance imaging” Small 2014, 10, 3962-3969. (SCI, IF: 13.3)
  20. Shang-Wei Chou, Ying-Ren Lai, Ya Yun Yang, Chih-Yuan Tang, Michitoshi Hayashi, Hsieh-Chih Chen, Hui-Lung Chen*, and Pi-Tai Chou*, “Uniform size and composition tuning of PtNi octahedra for systematic studies of oxygen reduction reactions” Journal of Catalysis 2014, 309, 343-350. (SCI, IF: 7.3)
  21. Hsieh-Chih Chen*, Ying-Hsiao Chen, Chung-Hao Liu, Yen-Hao Hsu, Yun-Chen Chien, Wei-Ti Chuang, Chih-Yang Cheng, Chien-Liang Liu, Shang-Wei Chou, Shih-Huang Tung*, and Pi-Tai Chou*, “Fluorinated thienyl-quinoxaline-based D−π−A−type copolymer toward efficient polymer solar cells: synthesis, characterization, and photovoltaic properties” Polymer Chemistry 2013, 4, 3411-3418. (SCI, IF: 4.6)
  22. Yung-Kang Peng, Chien-Liang Liu, Hsieh-Chih Chen, Shang-Wei Chou, Wei-Hsuan Tseng, Yu-Jui Tseng, Chia-Cheng Kang, Jong-Kai Hsiao*, and Pi-Tai Chou*, “Antiferromagnetic iron nanocolloids: a new generation in vivo T1 MRI contrast agent” Journal of the American Chemical Society 2013, 135, 18621-18628. (SCI, IF: 15.0)
  23. Tsung-Yuan Hsieh, Han-Wen Liu, Yu-Shing Chen, Cheng-Kun Tsai, Hsieh-Chih Chen, Jong-Wei Lin, Ron-Bin Hsu, Tzung-Dau Wang, Chien-Cheng Chen, Chi-Kuang Sun, and Pi-Tai Chou*, “In vivo metabolic imaging of insulin with multiphoton fluorescence of human insulin-Au nanodots” Chien-Liang Liu, Tzu-Ming Liu*, Small 2013, 9, 2103-2110. (SCI, IF: 13.3)
  24. Hsieh-Chih Chen*, Ying-Hsiao Chen, Chi-Chang Liu, Yun-Chen Chien, Shang-Wei Chou, and Pi-Tai Chou*, “Prominent short-circuit currents of fluorinated quinoxaline-based copolymer solar cells with a power conversion efficiency of 8.0%” Chemistry of Materials 2012, 24, 4766-4772. (SCI, IF: 8.6)
  25. Hsieh-Chih Chen, Shang-Wei Chou, Wei-Hsuan Tseng, I-Wen P. Chen, Chi-Chang Liu, Chun Liu, Chien-Liang Liu, Chun-hsien Chen*, Chih-I. Wu*, and Pi-Tai Chou*, “Large AuAg alloy nanoparticles synthesized in organic media using a one-pot reaction: their applications for high-performance bulk heterojunction solar cells” Advanced Functional Materials 2012, 22, 3975-3984. (SCI, IF: 19.0)
  26. Hsieh-Chih Chen, Chih-Wei Lai, I-Che Wu, Hsin-Ru Pan, I-Wen P. Chen, Yung-Kang Peng, Chien-Liang Liu, Chun-hsien Chen, and Pi-Tai Chou*, “Enhanced performance and air stability of 3.2% hybrid solar cells: how the functional polymer and CdTe nanostructure boost the solar cell efficiency” Advanced Materials 2011, 23, 5451-5455. (SCI, IF: 29.4)
  27. Hsieh-Chih Chen, I-Che Wu, Jui-Hsiang Hung, Fu-Je Chen, I-Wen P. Chen, Yung-Kang Peng, Chao-Sung Lin, Chun-hsien Chen, Yu-Jane Sheng, Heng-Kwong Tsao*, and Pi-Tai Chou*, “Superiority of branched side chains in spontaneous nanowire formation: exemplified by poly(3-2-methylbutylthiophene) for high-performance solar cells” Small 2011, 7, 1098-1107. (SCI, IF: 13.3)
  28. Yung-Kang Peng, Chih-Wei Lai, Chien-Liang Liu, Hsieh-Chih Chen, Yi-Hsuan Hsiao, Wei-Liang Liu, Kuo-Chun Tang, Yun Chi, Jong-Kai Hsiao*, Kun-Eng Lim, Hung-En Liao, Jing-Jong Shyue, and Pi-Tai Chou*, “A new and facile method to prepare uniform hollow MnO/functionalized mSiO2 core/shell nanocomposites” ACS Nano 2011, 5, 4177-4187. (SCI, IF: 17.1)
  29. Dong-Yi Chen, Chyi-Lin Chen, Yi-Ming Cheng, Cheng-Hsuan Lai, Jian-Yuan Yu, Bo-So Chen, Cheng-Chih Hsieh, Hsieh-Chih Chen, Li-Yin Chen, Ching-Yen Wei, Chung-Chih Wu, and Pi-Tai Chou*, “Design and synthesis of trithiophene-bound excited-state intramolecular proton transfer dye: enhancement on the performance of bulk heterojunction solar cells” ACS Applied Materials & Interfaces 2010, 2, 1621-1629. (SCI, IF: 9.5)
  30. Dong-Yi Chen, Yu-Yen Hsu, Hui-Chu Hsu, Bo-So Chen, Yi-Tsung Lee, Hungshin Fu, Min-Wen Chung, Shih-Hung Liu, Hsieh-Chih Chen, Yun Chi*, and Pi-Tai Chou*, “Organic dyes with remarkably high absorptivity; all solid-state dye sensitized solar cell and role of fluorine substitution” Chemical Communications 2010, 46, 5256-5258. (SCI, IF: 6.2)
  31. Cheng-Ting Wang, Chi-Ching Kuo, Hsieh-Chih Chen, and Wen-Chang Chen*, “Non-woven and aligned electrospun multicomponent luminescent polymer nanofibers: effects of aggregated morphology on the photophysical properties” Nanotechnology 2009, 20, 375604. (SCI, IF: 3.5)
  32. Hsieh-Chih Chen, Cheng-Liang Liu, Chi-Chung Bai, Nian-Hau Wang, Chih-Shan Tuan and Wen-Chang Chen*, “Morphology and photophysical properties of DB-PPV/PMMA luminescent electrospun fibers” Macromolecular Chemistry and Physics 2009, 210, 918-925. (SCI, IF: 2.5)
  33. Hsieh-Chih Chen, Cheng-Ting Wang, Cheng-Liang Liu, Yu-Cheng Liu, and Wen-Chang Chen*, “Full color light-emitting electrospun nanofibers prepared from PFO/MEH-PPV/PMMA ternary blends” Journal of Polymer Science Part B: Polymer Physics 2009, 47, 463-470. (SCI, IF: 3.2)

Energy and Optoelectronic Devices Laboratory

Welcome to the Energy and Optoelectronic Devices Laboratory (EODL), where innovation meets exploration in the realm of energy and optoelectronic devices. Situated at the forefront of cutting-edge research, our laboratory provides a dynamic environment for undergraduate and graduate students alike to delve into the realms of renewable energy, photonics, and semiconductor technologies.

At EODL, we foster a vibrant research atmosphere that encourages collaboration, creativity, and critical thinking. Our team comprises dedicated researchers driven by a passion for advancing knowledge and solving complex challenges in the field of energy and optoelectronics. With state-of-the-art facilities and access to advanced equipment, we empower our teams to explore new ideas, develop innovative solutions, and push the boundaries of scientific discovery. From fundamental research to applied development, there are ample opportunities to grow professionally and contribute to groundbreaking discoveries that shape the future of technology.

In summary, the Energy and Optoelectronic Devices Laboratory provides an exciting and enriching environment for students passionate about exploring the frontiers of energy and optoelectronic technologies. With a focus on innovation, collaboration, and international competitiveness, we are committed to pushing the boundaries of knowledge and driving positive change for a sustainable future. Join us in our quest to unlock the potential of energy and light for the benefit of society and the planet.

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