吳嘉文 教授 / Chia-Wen (Kevin) Wu Professor

Index
吳嘉文 教授
Chia-Wen (Kevin) Wu
電話(02)3366-3064
傳真(02)2362-3040
電子郵件kevinwu@ntu.edu.tw
辦公室:化工二館(鄭江樓北棟)N614
研究室資料

功能性奈米孔洞材料

化工二館(鄭江樓北棟)N617
(02)3366-9534
  • 學經歷

國立台灣大學    農化學士,1998
國立台灣大學    農化碩士,2000
日本東京大學    材料科學與工程博士,2005

  • 研究主題

中孔徑奈米材料的製備與應用
中孔徑奈米材料 (mesoporous materials) 具有大表面積,規則結構,均勻孔徑等優點,在基礎研究及實際應用上都受到相當重視。本研究室的研究著重在於此材料的合成與應用 (光電,能源及生醫方面)。合成製備上,我們將結合 Bottom-up 手法中的界面活性劑的自組裝特性 (Self-assembly) 與 Top-down 手法中的半導體蝕刻技術 (Lithography) 來製作先端功能性的奈米孔徑材料。此製備方法包含了化學的合成及工學的製造。在基礎研究上,我們將會研究不同合成條件下對奈米結構的相轉移,不同孔狀結構的合成及構造解析,材料的功能化等相關題目。在實際應用上,目前我們的材料應用著重於以下三部份: 1. 光電:色素增感太陽電池2. 能源:綠色能源,燃料電池 3.生醫:藥物與基因的傳遞與釋放。藉由基礎與應用的研究,我們期待除了能發展出新的材料之外,更希望這些研究對人類健康與環境永續有所貢獻。

  • 最新研究

1. 設計並合成多功能中孔徑固體催化劑於木質纖維生質物的高效率且高選擇性地轉換成生質能源(II)-酵素補助的纖維素轉換
Kevin Chia-Wen Wu, sponsored by the National Science Council (國科會)

2. 合成多功能中孔徑氧化矽及氧化鈦奈米粒子做為高感度螢光探針並用於細胞內生物感測
Kevin Chia-Wen Wu, sponsored by the National Health Research Institutes (國衛院)

3. 高效環保的生質柴油生產技術:原物料直接轉成生質燃料
Kevin Chia-Wen Wu, sponsored by the National Science Council (國科會)(能源科技研究計畫,整合型計畫:子計畫三)

4. 應用生物可分解性中空中孔洞氫氧基磷灰石奈米粒子於胃癌併腹轉移的治療模式建立
Kevin Chia-Wen Wu, sponsored by the National Taiwan University Hospital (台大醫院)

  • 榮譽獎項
  1. 王毓璞同學/指導教授:吳嘉文教授參加2014年中華民國界面科學學會年會暨論文發表會在壁報展示競賽部分獲得佳作
  2. 為期刊Chemical Communications 撰寫專題文章並被期刊引用為封面圖
  3. 榮獲2014 日本化學學會The Distinguished Lecture Award (最佳演說獎) for Inorganic Porous Materials
  4. 白井宏明/指導教授:吳嘉文教授北海道大學日籍交換學生在台研究成果獲日學術會議肯定
  5. “Energy & Environmental Science"期刊封面
  6. “Green Chemistry “期刊封面
  7. 發表在期刊"Science and Technology of Advanced Materials (STAM)"上的文章獲選為Best Paper Award 2014
  8. 碩士研究生鄧有衡同學/指導教授:吳嘉文教授 The International Conference on Nanocatalysts and Nanomaterials for Green Technologies」最佳海報競賽榮獲銀獎, 2014
  9. Best poster award:陳靖天同學 /指導教授吳嘉文教授 2014年台灣化學工程學會61周年年會暨國科會化工學門成果發表會 觸媒及反應工程組海報優等獎 2014/12/13-14.
  10. Best poster award:鄧有衡同學 /指導教授吳嘉文教授 2014年台灣化學工程學會61周年年會暨國科會化工學門成果發表會 薄膜分離組海報優等獎 2014/12/13-14.
  11. 論文被Chemcatchem接受並選為期刊封底(2015/03/17)
  12. ChemSusChem接受並選為期刊封面內頁文章(2015/03/18)
  13. 擔任國際重要期刊Scientific Reports的編輯委員(2015/06/069)
  14. SCI國際期刊Scientific Reports (Nature Publishing Group) (IF: 5.578)的Editor and Editorial Board Member.
  15. SCI國際期刊Advanced Powder Technology (IF: 1.612)的Editor and Editorial Board Member.
  16. SCI國際期刊Journal of Nanoscience and Nanotechnology (IF: 1.149)的Guest Editor.
  17. 1SCI國際期刊Science and Technology of Advanced Materials (IF: 3.752)的Guest Editor.
  18. 榮獲104度吳大猷先生紀念獎(2015/10/08)
  19. 臺大SMART Center」與日本研究機構NIMS共同合作完成研究成果-應用奈米顆粒萃取海藻油脂,可將廢食用油轉化為綠色能源,研究成果已發表於永續資源國際知名期刊ChemSusChem,獲選為期刊封面。(2015/11/18)
  20. 功能性奈米孔洞材料研究室(吳嘉文教授主持)學術文章被接受發表至Chemcatchem並被選為封面,2016
  21. 榮獲科技部「吳大猷先生紀念獎」,2016
  22. 指導王正彥同學,中油新能源創意競賽榮獲第3名實用獎,2016
  23. 榮獲第2屆台灣觸媒年會最佳研究論文獎,2016
  24. 指導 廖祐德同學,參加「第 34 屆觸媒暨反應工程研討會」學生英語演講競賽第一名,2016
  25. 指導 康庭慈同學,榮獲2016國際生質物催化轉化會議學生海報競賽第2名,2016
  26. 指導 王正彥同學,榮獲104年度大專學生研究計畫研究創作獎,2016
  27. 2016 Green Tech 東元科技創意競賽亞軍,2016
  28. 2指導 陳珮鵑同學,參加"有機/無機混成材料與紡織品工業基礎計術深耕計畫. 2016年專題論文競賽.”榮獲佳作的成績,2016
  29. 指導 葉俊毅同學,榮獲「第63屆台灣化學工程學會年會」壁報論文競賽優勝獎,2016
  30. 指導 張家豪同學,榮獲「第63屆台灣化學工程學會年會」壁報論文競賽優勝獎,2016
  31. 指導 王正彥同學,榮獲「第63屆台灣化學工程學會年會」中文口頭報告競賽優勝獎,2016
  32. 指導 郭偉琪同學,榮獲「第63屆台灣化學工程學會年會」壁報論文競賽佳作,2016
  33. 2017年11月: 榮獲化學學會傑出青年化學家獎
  34. 2017年9月: 榮獲化工學會賴再得獎
  35. 2018年5月: 榮獲106度科技部傑出研究獎
  36. 2019年: 李長榮教育基金會傑出青年教授獎
  37. 2019年: 2019 Outstanding Researcher Award from Asia-Pacific Associations of Catalysis Societies (APCAS).
  1. E. Doustkhah, J. J. Lin, S. Rostamnia, C. Len, R. Luque, X. L. Luo, Y. Bando, K. C. W. Wu, J. Kim, Y. Yamauchi and Y. Ide, “Development of Sulfonic-Acid-Functionalized Mesoporous Materials: Synthesis and Catalytic Applications", Chemistry-a European Journal, 25(7), 1614-1635, 2019(Feb), (IF: 5.16)
  2. B. M. Matsagar, Z. Y. Wang, C. Sakdaronnarong, S. S. Chen, D. C. W. Tsang and K. C. W. Wu, “Effect of Solvent;Role of Formic Acid and Rh/C Catalyst for the Efficient Liquefaction of Lignin", Chemcatchem, 11(18), 4604-4616, 2019(Sep), (IF: 4.495)
  3. Y. Y. Huang, H. Konnerth, J. Y. Yeh, M. H. G. Prechtl, C. Y. Wen and K. C. W. Wu, “De novo synthesis of Cr-embedded MOF-199 and derived porous CuO/CuCr2O4 composites for enhanced phenol hydroxylation", Green Chemistry, 21(8), 1889-1894, 2019(Apr), (IF: 9.405), Selected as Front Cover
  4. Y. T. Liao, C. H. Liu, Y. Chin, S. Y. Chen, S. H. Liu, Y. C. Hsu and K. C. W. Wu, “Biocompatible and multifunctional gold nanorods for effective photothermal therapy of oral squamous cell carcinoma", Journal of Materials Chemistry B, 7(28), 4451-4460, 2019(Jul), (IF: 4.776)
  5. C. C. Chueh, C. I. Chen, Y. A. Su, H. Konnerth, Y. J. Gu, C. W. Kung and K. C. W. Wu, “Harnessing MOF materials in photovoltaic devices: recent advances;challenges;and perspectives", Journal of Materials Chemistry A, 7(29), 17079-17095, 2019(Aug), (IF: 10.733), Selected as Front Cover
  6. L.-H. Yeh, Z.-Y. Huang, Y.-C. Liu, M.-J. Deng, T.-H. Chou, H.-C. Ou Yang, T. Ahamad, Saad M. Alshehri and K. C. W. Wu, “A nanofluidic osmotic power generator demonstrated in polymer gel electrolytes with substantially enhanced performance", Journal of Materials Chemistry A, 7(47), 26791-26796, 2019(Nov), (IF: 10.733)
  7. Y. C. Liu, C. Y. Chen, G. S. Lin, C. H. Chen, K. C. W. Wu, C. H. Lin and K. L. Tung, “Characterization and molecular simulation of Pebax-1657-based mixed matrix membranes incorporating MoS2 nanosheets for carbon dioxide capture enhancement", Journal of Membrane Science, 582, 358-366, 2019(Jul), (IF: 7.015)
  8. V. Malgras, J. Tang, J. Wang, J. Kim, N. L. Torad, S. Dutta, K. Ariga, M. S. A. Hossain, Y. Yamauchi and K. C. W. Wu, “Fabrication of Nanoporous Carbon Materials with Hard- and Soft-Templating Approaches: A Review", Journal of Nanoscience and Nanotechnology, 19(7), 3673-3685, 2019(Jul), (IF: 1.354)
  9. S. Balciunas, M. Simenas, D. Pavlovaite, M. Kinka, F. K. Shieh, K. C. W. Wu, J. Banys and R. Grigalaitis, “Low-Frequency Dipolar Dynamics and Atmospheric Effects in ZIF-90 Metal-Organic Framework", Journal of Physical Chemistry C, 123(1), 631-636, 2019(Jan), (IF: 4.309)
  10. M. H. Lee, S. Y. Wang, W. H. Chiang, H. Feng, T. Y. Huang, M. H. Yeh, K. C. W. Wu and K. C. Ho, “Platinum nanoparticles decorated graphene nanoribbon with eco-friendly unzipping process for electrochemical sensors", Journal of the Taiwan Institute of Chemical Engineers, 96, 566-574, 2019(Mar), (IF: 3.834)
  11. V. Veeramani, B. M. Matsagar, Y. Yamauchi, A. Y. Badjah, M. Naushad, M. Habila, S. Wabaidur, Z. A. Alothman, Z. L. Wang and K. C. W. Wu, “Metal organic framework derived nickel phosphide/graphitic carbon hybrid for electrochemical hydrogen generation reaction", Journal of the Taiwan Institute of Chemical Engineers, 96, 634-638, 2019(Mar), (IF: 3.834)
  12. A. F. M. El-Mandy, Y. H. Hung, T. H. Mansoure, H. H. Yu, Y. S. Hsu, K. C. W. Wu and S. W. Kuo, “Synthesis of [3+3] beta-ketoenamine-tethered covalent organic frameworks (COFs) for high-performance supercapacitance and CO2 storage", Journal of the Taiwan Institute of Chemical Engineers, 103, 199-208, 2019(Oct), (IF: 3.834)
  13. J. H. Khan, F. Marpaung, C. Young, J. J. Lin, M. T. Islam, S. M. Alsheri, T. Ahamad, N. Alhokbany, K. Ariga, L. K. Shrestha, Y. Yamauchi, K. C. W. Wu, M. S. A. Hossain and J. Kim, “Jute-derived microporous/mesoporous carbon with ultra-high surface area using a chemical activation process", Microporous and Mesoporous Materials, 274, 251-256, 2019(Jan), (IF: 4.182)
  14. C. V. Nguyen, B. M. Matsagar, J. Y. Yeh, W. H. Chian and K. C. W. Wu, “MIL-53-NH2-derived carbon-Al2O3 composites supported Ru catalyst for effective hydrogenation of levulinic acid to gamma-valerolactone under ambient conditions", Molecular Catalysis, 475, 2019(Oct), (IF: 2.938)
  15. B. Yuliarto, N. L. W. Septiani, Y. V. Kaneti, M. Iqbal, G. Gumilar, M. Kim, J. Na, K. C. W. Wu and Y. Yamauchi, “Green synthesis of metal oxide nanostructures using naturally occurring compounds for energy, environmental, and bio-related applications", New Journal of Chemistry, 43(40), 15846-15856, 2019(Sep), (IF: 3.069)
  16. B. M. Matsagar, T. C. Kang, Z. Y. Wang, T. Yoshikawa, Y. Nakasaka, T. Masuda, L. C. Chuang and K. C. W. Wu, “Efficient liquid-phase hydrogenolysis of a lignin model compound (benzyl phenyl ether) using a Ni/carbon catalyst Electronic supplementary information (ESI) available. See DOI: 10.1039/c8re00304a", Reaction Chemistry & Engineering, 4(3), 618-626, 2019(Mar), (IF: 3.935)
  17. C.-H. Liu, H.-C. Chiu, H.-L. Sung, J.-Y. Yeh, K. C. W. Wu and S.-H. Liu, “Acute oral toxicity and repeated dose 28-day oral toxicity studies of MIL-101 nanoparticles", Regulatory Toxicology and Pharmacology, 107, 104426, 2019(Oct), (IF: 2.031)
  18. S. Dutta, J. Kim, P. H. Hsieh, Y. S. Hsu, Y. V. Kaneti, F. K. Shieh, Y. Yamauchi and K. C. W. Wu, “Nanoarchitectonics of Biofunctionalized Metal-Organic Frameworks with Biological Macromolecules and Living Cells", Small Methods, 3(11), 2019(Nov)
  19. J. Sonar, S. Pardeshi, S. Dokhe, R. Pawar, K. Kharat, A. Zine, B. Matsagar, K. C. W. Wu and S. Thore, “An efficient method for the synthesis of 2,4,5-trisubstituted imidazoles using lactic acid as promoter", SN Applied Sciences, 1(9), 1045, 2019(Aug)
  20. C.-W. Huang, V.-H. Nguyen, S.-R. Zhou, S.-Y. Hsu, J.-X. Tan and K. C. W. Wu, “Metal–organic frameworks: preparation and applications in highly efficient heterogeneous photocatalysis", Sustainable Energy & Fuels, 2019(Nov), (IF: 4.912), In press