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戴子安 教授 / Chi-An Dai Professor

高分子奈米材料研究室 Polymer Nanomaterials Lab 一館 陰離子與導電高分子聚合共聚高分子結構與性質 Synthesis of Conducting Block CopolymerPatterning Metal and Semiconducting Nanoparticles with Block Copolymer TemplatePolymer Thin film Surface and Interface (02)3366-3051 BLDG. I (02)3366-3043 polymer@ntu.edu.tw 206 戴子安 Chi-An Dai 化工一館 CheE BLDG. I 教授 Professor 212A
    • 學經歷
      • 國立台灣大學化工系 教授   2010-迄今
      • 美國伊士曼柯達公司 研究員  1996-2001
      • 美國康乃爾大學   材料博士 1996 (advisor: Prof. E. J. Kramer)
      • 美國康乃爾大學   材料碩士 1991
      • 私立東海大學    化工學士 1986

     

    • 研究主題
      • 陰離子聚合及導電高分子合成與應用
        新穎之高分子太陽能電池具備有柔軟、大面積、低成本製作之優點。本研究室合成新穎導電高分子與無機奈米顆粒混成製備太陽能電池,以提升高分子太陽能電池之效率。利用導電嵌段共聚高分子形成奈米自組裝之微結構,以增加電子與電洞分離之效率以增進太陽能電池效能。
      • 自組裝奈米結構製備
        本研究室利用具備形成自組裝奈米結構之團聯共聚高分子,以引導產生奈米金屬及半導體顆粒之整齊有序奈米結構,此結構可應用於量子點、生物感測、高密度儲存材料及近場光學等領域。
      • 高分子表面界面性質
        本研究室利用具備界面活性之功能性高分子改變表面及界面性質,並探討薄膜界面化學、界面結構與界面性質之關係。
      最新研究
      1. Develop Precision Living Polymerization Method to Synthesize C60/Conducting Polymer Star and Miktoarm Star Polymers開發精準活性聚合法,合成碳60/導電高分子星狀與多臂星狀嵌段共聚物。NSC100-2221-E-002-084-MY3,2011/08/01-2014/07/31
      2. Investigation of Ecological Engineering Materials for Agricutural Waterway-I and II 農田水路生態工程材料之研發及可行性評估。 2010/3/1-2010/12/31,2011/6/1-2011/12/31 (共同主持)
      3.  Bio-Compatible Auto-Focusing Artificial Eye 具自動對焦功能之次世代生物相容人工眼。 2008/11/1-2011/10/31(共同主持)
      4. Persuasive CO2 Reduction and Energy Conservation 誘導式減碳與節能。2008/11/1-2011/10/31(共同主持)
      5. Study of Novel Rod-Coil Block Copolymers Synthesis, Hybrid Structure, and Self-Assembly Behavior 新穎硬桿/柔曲嵌段共聚物合成與混成材料自組裝有序結構研究。NSC97-2221-E-002-064-MY3,2008/08/01-2011/07/31
      6. Application of Artificial Muscle in Biomedicine人工肌肉在生物醫學的應用NSC94-2218-E-002-076,2005/11/01-2008-10/31 (共同主持)
    1. Invited Speaker in Taiwan-Russia Joint Symposium on Soft Mateials: Physics, Chemistry and Application, Nov 12-13, 2007, Hsin-Chu, Taiwan.
    2. Invited Speaker in IUPAC World Polymer Congress-Macro2008 Symposium, June 29-July 4, 2008, Taipei, Taiwan.
    3. Invited Speaker of Asia Excellence in 59th Society of Polymer Science, Japan (SPSJ), May 26-28, 2010, Yokohama, Japan.
    1. Chueh-Hung Wu, Ming-Kuan Sun, Jay Shieh, Chuin-Shan Chen, Chang-Wei Huang, Chi-An Dai, Shu-Wei Chang, Wen-Shiang Chen, Tai-Horng Young, “Ultrasound-responsive NIPAM-based hydrogels with tunable profile of controlled release of large molecules” Ultrasonics, 83, 157, 2018. (SCI)
    2. Cheng-Hsi Weng, Cheng-Chuan Lin, Fu-Cheng Tsai, Chi-An Dai, Fu-Ling Yang, Wen-Pin Shih,* and Pei-Zen Chang “Photo-controllable contact angle hysteresis on an artificial Azo-IPN petal” Mater. Lett. 218, 81, 2018. (SCI) (IF: 2.572, 2016)
    3. Yu-Ping Lee, Chi-Ju Chiang, Pin-Chia Jen, Bo-Ting Chou, Leeyih Wang, Yao-Yi Cheng, Yi-Huan Lee,* Yi-Fan Chen, Chih-Chen Hsieh, and Chi-An Dai* “Synergistic In Situ Hybrid Synthesis of Highly Crystalline P3HT/ZnO Nanowires at Elevated Pressures” ACS Appl. Energy. Mater. 1, 1930, 2018. (SCI) (IF:5.711)
    4. Yu-Ping Lee, Hsin-Yu Liu, Po-Chun Lin, Yi-Huan Lee, Leng-Rong Yu, Chih-Chen Hsieh, Po-Jen Shih, Wen-Pin Shih, I-Jong Wang,* Jia-Yush Yen, and Chi-An Dai* “Facile Fabrication of Superporous and Biocompatible Hydrogel Scaffolds for Artificial Corneal Periphery” Colloids and Surfaces B: Biointerfaces, 175, 26, 2019. (SCI) (IF: 3.997)
    5. Chien-Hsin Wu, Yu-Ru Lin, Shih-Chieh Yeh, Ya-Chin Huang, Kuo-Hua Sun, Yeng-Fong Shih, Wen-Chiung Su, Chi-An Dai, Shenghong A. Dai,* and Ru-Jong Jeng* “A Facile Synthetic Route to Ether Diols Derived from 1,1-Cyclopentylenylbisphenol for Robust Cardo-Type Polyurethanes” Macromolecules, 52, 959, 2019. (SCI) (IF: 5.985)
    6. Yu-Ping Lee, Ming-Wei Liu, Jia-Kuan Qin, Yi-Huan Lee,* Yi-Lung Yang, Leeyih Wang, Yao-Yi Cheng, Yi-Fan Chen, Wen-Yu Liu, Chih-Chen Hsieh, and Chi-An Dai* “Long-Term Thermally Stable Nanoconfining Networks for Efficient Fully Conjugated Semicrystalline/Amorphous Diblock Copolymer Photovoltaics” Org. Electron. 69, 263, 2019. (SCI) (IF: 3.70)
    7. Yu-Jui Wang, Chi-An Dai, Jia-Han Li* “Numerical Study of Tunable Photonic Nanojets Generated by Biocompatible Hydrogel Core-Shell Microspheres for Surface-enhanced Raman Scattering Applications” Polymers 11, 431, 2019. (SCI) (IF: 4.329)
    8. Yoshihiro Ohta, Yuji Abe, Kenta Hoka, Eisuke Baba, Yu-Ping Lee, Chi-An Dai, Tsutomu Yokozawa,* “Synthesis of Amphiphilic, Janus Diblock Hyperbranched Copolyamides and Their Self-Assembly in Water” Polymer Chemistry, 10, 4246, 2019. (SCI) (IF: 5.582)
    9. Yu-Ping Lee, Chieh-Chuan Lin, Chih-Chung Hsiao, Po-An Chou, Yao-Yi Cheng, Chih-Chen Hsieh,* and Chi-An Dai* “Nanopiezoelectric Devices for Energy Generation Based on ZnO Nanorods/Flexible-Conjugated Copolymer Hybrids Using All-Wet Coating Processes” Micromachines, 11, 14, 2020. (SCI) (IF:3.49)
    10. Ying-Chi Huang, Yu-Hsiang Huang, Li-Yun Chen, Chi-An Dai, Shenghong A. Dai, Ying-Hsiao Chen, Chien-Hsin Wu,* and Ru-Jong Jeng* “Robust thermoplastic polyurethane elastomers prepared from recycling polycarbonate” Polymer, 212, 123296, 2021. (SCI) (IF: 4.430)
    11. Hsien-Chi Lai, Yu-Jui Wang, Chi-An Dai, Chun-Hway Hsueh, Shu-Jen Wang, and Jia-Han Li* “Kinetin Detection Enhancement Based on Photonic Nanojets and Surface-enhanced Raman Scattering” IEEE J. Sel. Top. Quantum Electron. 27, 7100208, 2021. (SCI) (IF: 4.544)
    12. Yu-Chi Ma, Chang-Tsung Hsieh, Yu-Hsiang Lin, Chi-An Dai and Jia-Han Li* “Numerical Study of Customized Artificial Cornea Shape by Hydrogel Biomaterials on Imaging and Wavefront Aberration” Polymers, 13, 4372, 2021. (SCI) (IF: 4.329)
    13. Hsuan Lu, Chih-Hong Chang, Bo-Rong Wu, Nien-Chi Wu, Jun-Zhi Liang, Chi-An Dai, and Arnold C.-M. Yang* “Reaching Nearly 100% Quantum Efficiencies in Thin Solid Films of Semiconducting Polymers via Molecular Confinements under Large Segmental Stresses” ACS Nano, 16, 8273, 2022. (SCI) (IF: 16.24)
    14. Yoshihiro Ohta, Chih-Feng Huang, Yi-Huan Lee, Chi-An Dai,* and Tsutomu Yokozawa,* “Synthesis of Well-Defined Block Copolymers of Hyperbranched Polyamide and Polystyrene and Their Micelle-to-Vesicle Transformation in Organic Solvents” Macro. Chem. Phys. 224, 2200298, 2023. (SCI) (IF: 2.527)