|
碩士班一年級 (Feb. 2019 - Sep. 2021) |
白旻昊
(Min-Hao Pai) Email : r07549018@ntu.edu.tw |
|
論文題目: Study of Redox-active Polyamides with Intrinsic Microporosity for Enhancing Electrochromic Response Capability 藉固有微孔洞聚醯胺提升電致變色應答性能之研究
|
|
期刊論文: (1) S. Y. Chen, M. H. Pai and G. S. Liou* “Alkyl Chain Length and Anion Effects of AIE-Active α-Cyanostilbene-Containing Triphenylamine Derivatives on Optical and Electrochemical Properties” J. Mater. Chem. C, J. Mater. Chem. C, 8, 7454-7462 (2020) (2022 SCI, IF: 4.6)
(2) Y. W. Chiu, W. S. Tan, J. S. Yang* M. H. Pai, and G. S. Liou* “Electrochromic Response Capability Enhancement with Pentiptycene-Incorporated Intrinsic Porous Polyamide Films” Macromol. Rapid Commun., 2000186 (2020) (2022 SCI, IF: 4.6)
(3) Y. W. Chiu, M. H. Pai and G. S. Liou* “Facile Approach of Porous Electrochromic Polyamide/ZrO2 Films for Enhancing Redox Switching Behavior” ACS Appl. Mater. Interfaces. 12, 35273−35281 (2020) (2022 SCI, IF: 9.5)
(4) M. H. Pai, C. C. Hu, W. S. Tan, J. S. Yang and G. S. Liou* “Preparation and Characterization of Intrinsic Porous Polyamides Based on Redox-Active Aromatic Diamines with Pentiptycene Scaffolds” ACS Macro Lett., 10, 1210−1215 (2021) (2022 SCI, IF: 5.8)
(5) M. H. Pai, C. C. Hu and G. S. Liou* “Enhancement of Electrochromic Switching Properties with Tröger's Base-Derived Intrinsic Microporous Polyamide Films”Macromol. Rapid Commun., 42, 2100492 (2021) (2022 SCI, IF: 4.6)
研討會論文: Oral Presentation (1) M. H. Pai and G. S. Liou* “A Facile Synthesis of Redox-active Polymers with Intrinsic Microporosity for Enhancing Electrochromic Behaviors” Presented at the International Student Workshop on Aromatic Functional Polymers 2019. 14, Nov., 2019, Tokyo, Japan
Poster Presentation (1) Y. W. Chiu, M. H. Pai and G. S. Liou* “Synthesis and Electrochromic Behaviors of Triphenylamine‐Based Polymers with Intrinsic Microporosity” Presented at the 27th Japan Polyimide and Aromatic Polymers Conference. 15, Nov., 2019, Tokyo, Japan (2) Y. W. Chiu, M. H. Pai and G. S. Liou* “A Facile Synthesis of Redox-Active Triphenylamine-Based Polymers with Intrinsic Microporosity for Enhancing Electrochromic Behaviors” Presented at the 2020 Bowei Research Conference. 5, Jun., 2020,Yilan, Taiwan
研究成果:
|