[半導體材料與工程領域]
龔仲偉 (Chung-Wei Kung) 副教授
辦公室 :		93A15
電話 :		06-2757575 ext. 62629
E-mail :		cwkung@mail.ncku.edu.tw
研究專長 :		金屬有機骨架材料、電化學感測器、電催化、電化學儲能
研究成果 :		,    Twitter：https://twitter.com/KungGroup_NCKU

學歷  / Education

• 國立臺灣大學　化學工程學系　博士 (2015)
• 國立臺灣大學　化學工程學系　學士 (2011)

經歷 / Experience

• 國立成功大學　化學工程學系　副教授 (2021-)
• 國立成功大學　化學工程學系　助理教授 (2018-2021)
• 美國西北大學　化學系　　　　博士後研究員 (2016-2018)
• 美國西北大學　化學系　　　　參訪學者        (2013-2014)

服務 / Service

• Reviewer for SCI Journals: 

  Journal of the American Chemical Society (JACS), Materials Todays, Physical Chemistry Chemical Physics (PCCP), ACS Applied Materials & Interfaces, Chemical Engineering Journal, Crystals, Catalysts, Sensors, Inorganic Chemistry Frontiers, Molecules, Royal Society Open Science

  (Source: https://publons.com/author/1310576/chung-wei-kung)

學術榮譽 / Honors and awards

1. 107學年度化工系教學優良教師
2. 108學年度化工系教學優良教師
3. 109學年度化工系教學優良教師
4. 109年度台綜大年輕學者創新研發成果選拔 - 佳作獎
5. 107年度教育部玉山青年學者
6. "World's Top 2% Scientists" based on 2020 single-year impact, ranking 4th in our Department and 24th in NCKU.
7. "First prize in the group of Chemical, Materials, and Resources Engineering (化材學群第一名)" in the young PI research paper competition hosted by College of Engineering in NCKU (成大工學院青年學者論文競賽, 2021).
8. 中華民國斐陶斐榮譽學會104年榮譽會員
9. AIP Poster Award” of 2015 International Conference on Nanospace Materials, Taipei, Taiwan, June 23-25, 2015.
10. 財團法人中技社103年度科技研究獎獎學金
11. Young Scientist Award” of E-MRS 2014 Spring Meeting, Lille, France, May 26-30, 2014, in recognition of an outstanding paper contributed to the Symposium L “Chromogenic Materials and Devices”.
12. "Student Award" of E-MRS 2012 Fall Meeting, Warsaw, Poland, September 17-21, 2012, supported by the Symposium H “Organized Nanostructures and Nano-objects: Fabrication, characterization and applications”.
13. Top reviewers in Cross-Field of 2019, awarded by Publons and Web of Science Group
14. Top reviewers in Chemistry of 2019, awarded by Publons and Web of Science Group
15. 國立成功大學108學年度工安環保日實驗室競賽獲「化學品30種以上實驗室組」第一名 

研究著作 / Publications

期刊論文 Referred Papers
(代表性著作 Selective Journal Publications)

2019-2021
(77 published SCI papers with an h-index of 41; find the full publication list at: https://scholar.google.com/citations?user=USl_ZuIAAAAJ&hl)

1. C. H. Shen, C. H. Chuang, Y. J. Gu, W. H. Ho, Y. D. Song, Y. C. Chen, Y. C. Wang, and C. W. Kung*, “Cerium-based metal–organic framework nanocrystals interconnected by carbon nanotubes for boosting electrochemical capacitor performance,” ACS Appl. Mater. Interfaces, 13 (2021) 16418-16426. (Selected as ACS Editors' Choice)
2. R. Muruganantham, Y. J. Gu, Y. D. Song, C. W. Kung*, and W. R. Liu*, “Ce-MOF derived ceria: Insights into the Na-ion storage mechanism as a high-rate performance anode material,” Appl. Mater. Today, 22 (2021) 100935. (Highlighted by Materials Today: https://www.materialstoday.com/energy/news/metal-organic-framework-boosts-sodium-ion-storage-/)
3. T. E. Chang, C. H. Chuang, and C. W. Kung*, “An iridium-decorated metal–organic framework for electrocatalytic oxidation of nitrite,” Electrochem. Commun., 122 (2021) 106899.
4. Y. D. Song, W. H. Ho, Y. C. Chen, J. H. Li, Y. S. Wang, Y. J. Gu, C. H. Chuang, and C. W. Kung*, “Selective formation of polyaniline confined in the nanopores of a metal–organic framework for supercapacitors,” Chem. Eur. J., 27 (2021) 3560-3567.
5. T. H. Yang, S. H. Yang, Y. C. Chen, D. Kurniawan, W. H. Chiang, Y. P. Chiu*, and C. W. Kung*, “Probing local donor-acceptor charge transfer in a metal–organic framework via scanning tunneling microscope,” J. Phys. Chem. C, 124 (2020) 21635-21640.
6. W. H. Ho, T. Y. Chen, K. Otake, Y. C. Chen, Y. S. Wang, J. H. Li, H. Y. Chen*, and C. W. Kung*, “Polyoxometalate adsorbed in a metal–organic framework for electrocatalytic dopamine oxidation,” Chem. Commun., 56 (2020) 11763-11766. (Highlighted as Outside Front Cover)
7. Y. C. Wang, Y. C. Chen, W. S. Chuang, J. H. Li, Y. S. Wang, C. H. Chuang, C. Y. Chen, and C. W. Kung*, “Pore-confined silver nanoparticles in a porphyrinic metal–organic framework for electrochemical nitrite detection,” ACS Appl. Nano Mater., 3 (2020) 9440-9448.
8. C. H. Chuang, J. H. Li, Y. C. Chen, Y. S. Wang, and C. W. Kung*, “Redox hopping and electrochemical behavior of metal–organic framework thin films fabricated by various approaches,” J. Phys. Chem. C, 124 (2020) 20854-20863. (Highlighted as Journal Cover)
9. C. H. Chuang, and C. W. Kung*, “Metal−organic frameworks toward electrochemical sensors: Challenges and opportunities,” Electroanalysis, 32 (2020) 1885-1895.
10. J. H. Li, Y. C. Chen, Y. S. Wang, W. H. Ho, Y. J. Gu, C. H. Chuang, Y. D. Song, and C. W. Kung*, “Electrochemical evolution of pore-confined metallic molybdenum in a metal–organic framework (MOF) for all-MOF-based pseudocapacitors,” ACS Appl. Energy Mater., 3 (2020) 6258-6267.
11. Y. H. Wang, C. H. Chuang, T. A. Chiu, C. W. Kung*, and W. Y. Yu*, “Size-tunable synthesis of palladium nanoparticles confined within topologically distinct metal–organic frameworks for catalytic dehydrogenation of methanol,” J. Phys. Chem. C, 124 (2020) 12521–12530.
12. C. W. Kung, S. Goswami, I. Hod, T. C. Wang, J. Duan, O. K. Farha, and J. T. Hupp*, “Charge transport in zirconium-based metal–organic frameworks,” Acc. Chem. Res., 53 (2020) 1187–1195.
13. Y. S. Chang, J. H. Li, Y. C. Chen, W. H. Ho, Y. D. Song, and C. W. Kung*, “Electrodeposition of pore-confined cobalt in metal–organic framework thin films toward electrochemical H2O2 detection,” Electrochim. Acta, 347 (2020) 136276.
14. Y. S. Wang, J. L. Liao, Y. S. Li, Y. C. Chen, J. H. Li, W. H. Ho, W. H. Chiang*, and C. W. Kung*, “Zirconium-based metal–organic framework-based nanocomposites containing dimensionally distinct nanocarbons for pseudocapacitors,” ACS Appl. Nano Mater., 3 (2020) 1448–1456. (Highlighted as Journal Cover)
15. C. W. Kung*, P. C. Han, C. H. Chuang, and K. C. W. Wu*, “Electronically conductive metal–organic framework-based materials,” APL Materials, 7 (2019) 110902.
16. Y. C. Chen, W. H. Chiang*, D. Kurniawan, P. C. Yeh, K. Otake, and C. W. Kung*, “Impregnation of graphene quantum dots into a metal–organic framework to render increased electrical conductivity and activity for electrochemical sensing,” ACS Appl. Mater. Interfaces, 11 (2019) 35319–35326. (Highlighted as Journal Cover)
17. J. H. Li, Y. S. Wang, Y. C. Chen, and C. W. Kung*, “Metal–organic frameworks toward electrocatalytic applications,” Appl. Sci., 9 (2019) 2427.
18. Y. S. Wang, Y. C. Chen, J. H. Li, and C. W. Kung*, “Toward metal–organic framework (MOF)‐based supercapacitors: Room‐temperature synthesis of electrically conducting MOF‐based nanocomposites decorated with redox‐active manganese,” Eur. J. Inorg. Chem., 2019 (2019) 3036–3044. (Selected as Very Important Paper and Highlighted as Front Cover)
19. C. C. Chueh*, C. I. Chen, Y. A. Su, H. Konnerth, Y. J. Gu, C. W. Kung*, and K. C. W. Wu*, “Harnessing of MOF materials in photovoltaic devices: Recent advance, challenge, and perspective,” J. Mater. Chem. A, 7 (2019) 17079–17095. (Highlighted as Front Cover)