教授介紹


 

吳乃立 教授

Nae-Lih Wu

電話886-2-23627158 886-2-33663995
傳真886-2-23623040

電子郵件 nlw001

辦公室:208A

 

研究室資料

能源材料實驗室

108; 工綜415

(02)3366-3018; (02)3366-3059

學經歷

國立台灣大學   化工學士,1980
美國賓州州立大學 化工博士,1987


研究主題

奈米晶型金屬氧化物之合成與分析
開發量產全結晶奈米(小於10nm)晶型與中孔結構之金屬與氧化物粉體與膠體之製程。探討此類物質所顯現出之特異相穩定與電子、電化學性質。

 

鋰離子電池與超高電容器
開發兼具有高電容量之奈米晶型與奈米結構之電極材料。


最新研究

1.Advance processing of high-performance materials for electrochemical energy storage devices高功能電化學元件材料之先進製程 Sponsored by National Taiwan University NT$ 2,500,000; 2008/8/1-2009/7/31
 
2.Research on High-Temperature Performance of LiFePO4 (II) Sponsored by National Science Council (II) NT$ 710,000; 2009/1/1-2009/12/31 
 
3.Green Chemical ProcessTechnology- High Gravity Processes (2/3) 綠色化學程序尖端技術-超重力化工程序應用之研發Sponsored by Ministry of Economic Affairs NT$ 6,170,000; 2008/12/1-2009/11/30 
 
4.Synthesis of High-Capacity Anode materials for Li-ion Battery by Electrospinning 用靜電紡絲合成鋰離子電池高容量負極纖維 Sponsored by Textile Technology Research Institute NT$ 500,000; 2009/1/1-2009/12/31
 
5.Research of Energy Storage Electrodes 儲能電極開發與應用研究 Sponsored by Textile Technology Research Institute NT$ 540,000; 2009/1/1-2009/12/31
 
6.Evaluation of Conductive Al Current Collector 導電鋁基材的評估 NT$300,000; 2009/3/1-2009/6/30
 
7.Research on High-performance Supercapacitors (1/3)
 
高性能超高電容器之研發(1/3) Sponsored by National Science Council NT$1,854,000; 2009/8/1-2009/7/31
 
8.New Generation High-Capacity Li-ion Battery materials 新世代高容量鋰離子電池材料  Sponsored by National Science CouncilNT$5,100,000; 2009/11/1-2010/12/31
 


榮譽獎項

1.2001 台慶文教基金會工程科技人員獎
 
2.2002中國化工學會賴再得教授獎
 
3.2002中國材料科學學會材料科學傑出論文獎學
 
4.2000-2006年國科會研究傑出獎助
 
5.2006 中國化工學會化工技術獎(「綠色化學程序尖端技術」團隊)
 
6.2006-2009 臺灣大學特聘教授
 
7.2008 臺灣大學工學院優良教師
 
8.2009中國工程師學會工程教授獎
 
9.2009 國家科學委員會傑出學者計畫主持人
 
10.2009 國立臺灣大學終身特聘教授
 

 
代表著作 近五年著作

1. F. Ataherian and Nae-Lih Wu*, “Long-Term Charge/Discharge Cycling Stability of MnO2 Aqueous Supercapacitor under Positive Polarization,” J. Electrochem. Soc. 158 (2011) A422-A427. (SCI, EI)

2. R. Subadevi, M. Sivakumar, S. Rajendran, H.-C. Wu, N.-L. Wu, “Studies on the Effect of Anions of Various LithiumSalts in PEMA Gel Polymer Electrolytes,” Journal of Applied Polymer Science 119 (2011) 1–6. (SCI, EI)

3. Yen-Po Lin and Nae-Lih Wu*, “Characterization of MnFe2O4/LiMn2O4 Aqueous Asymmetric Supercapacitor,” J. Power Sources 196 (2011) 851–854. (SCI, EI)

4. Hsien-Chang Wu, Eric Lee, Nae-Lih Wu*, and T. Richard Jow, “Effects of Current Collectors on Power Performance of Li4Ti5O12 Anode for Li-Ion Battery,” J. Power Sources 197, 301-304 (2012). (SCI, EI)

5. Chun-Chieh Lin, Yu-Chan Yen, Hung-Chun Wu and Nae-Lih Wu*, “Synthesis of porous Si particles by metal-assisted chemical etching for Li-ion battery application,” J. Chin. Chem. Soc. 59, 1226-1232 (2012). (SCI, EI)

6. O. Ghodbane, F. Ataherian, Nae-Lih Wu and Frédéric Favier*, “In situ crystallographic investigations of charge storage mechanisms in MnO2-based electrochemical capacitors,” J. Power Sources, 206, 454–462 (2012). (SCI, EI)

7. Ho-Seong Nam, Nae-Lih Wu, Kuang-Tsin Lee, Kwang Man Kim, Chul Gi Yeom, Lovely Rose Hepowit, Jang Myoun Ko*, and Jong-Duk Kim, “Electrochemical Capacitances of a Nanowire-Structured MnO2 in Polyacrylate-Based Gel Electrolytes,” J. Electrochem.  Soc., 159 A899-A903 (2012). (SCI, EI)

8. R. Subadevi, M.Sivakumar*, S.Rajendran, H.-C.Wu, Nae-Lih Wu, “Development and Characterizations of PVdF-PEMA gel polymer electrolytes,” Ionics, 18, 283-289 (2012). (SCI, EI)

9. Sook-Keng Chang, K. T. Lee, Z. Zainal*, K. B. Tan, N. A. Yusof, W. M. Daud, W. Yusoff, J. F. Lee and Nae-Lih Wu*, “Structural and Electrochemical Properties of Manganese Substituted Nickel Cobaltite for Supercapacitor Application,” Electrochimica Acta 67, 67-72 (2012). (SCI, EI)

10. C. N. Lin, C. Y. Chang, H. J. Huang, D. P. Tsai,and Nae-Lih Wu*, “Photocatalytic Degradation of Methyl Orange by a Multi-Layer Rotating Disk Reactor,” Environ Sci Pollut Res, 19, 3743–3750 (2012).

11. Jui-Pin Yen, Chien-Ming Lee, Tsung-Lung Wu, Hung-Chun Wu, Ching-Yi Su, Nae-Lih Wu, and Jin-Long Hong*, “Enhanced High-Temperature Cycle-Life of Mesophase Graphite Anode with Styrene–Butadiene Rubber/ Carboxymethyl Cellulose Binder,” ECS Electrochem. Lett., 1, A80-82 (2012).

12. Yu-Ting Weng, Chung-Bo Tsai, Wen-Hsien Ho, Nae-Lih Wu*, “Polypyrrole/carbon supercapacitor electrode with remarkably enhanced high-temperature cycling stability by TiC nanoparticle inclusion,” Electrochem.Commun. 27, 172-175 (2013). (SCI, EI)

13. Shih-Min Chang, Erwin F. Rodriguez Tolava, Yao-Jhen Yang, Hsin-Chieh Li, Rung-Chuan Lee, Nae-Lih Wu,* and Cheng-Che Hsu,* „One-Step Fast Synthesis of Li4Ti5O12 Particles Using an Atmospheric Pressure Plasma Jet,“ J. Am. Ceram. Soc., in press.

14. Wen-Chin Chen, Yen-Fang Song, Chun-Chieh Wang, Yijin Liu, Darius T. Morris, Piero A. Pianetta, Joy C. Andrews, Hung-Chun Wu, and Nae-Lih Wu,* “Study on Synthesis-Microstructure-Performance Relation of Layered Li-Excess Nickel-Manganese Oxide as Li-Ion Battery Cathode Prepared by High-Temperature Calcination,“  J. Mater. Chem. A, 2013, 1 (36), 10847 – 10856 (SCI, EI)

15. Yu-Ting Weng and Nae-Lih Wu, “ Titanium Carbide@Polypyrrole Core-Shell Nanoparticles Prepared by Controlled Heterogeneous Nucleation for Rechargeable Batteries,“ Chem. Commun.,  49, 10784—10786 (2013).(SCI, EI)

16. Yu-Ting Weng and Nae-Lih Wu, “High-Performance Poly(3,4-ethylene- dioxythiophene):Polystyrenesulfonate Conducting-Polymer Supercapacitor Containing Hetero-Dimensional Carbon Additives,“  J. Power Sources, 238, 69–73 (2013).(SCI, EI)

17. S. L. Kuo, W. R. Liu*, C. P. Kuo, Nae-Lih Wu, and H. C. Wu, “Lithium Storage in Reduced Graphene Oxides,” J. Power Sources, 244, 552-556 (2013).(SCI, EI)

18. Yu-Ting Weng, Chung-Bo Tsai, Wen-Hsien Ho, Nae-Lih Wu*, “Polypyrrole/carbon supercapacitor electrode with remarkably enhanced high-temperature cycling stability by TiC nanoparticle inclusion,” Electrochem. Commun. 27, 172-175 (2013).(SCI, EI)

19. Chun-Chieh Lin, Hung-Chun Wu, Jing-Pin Pan, Ching-Yi Su, Tsung-Hsiung Wang, Hwo-Shuenn Sheu, and Nae-Lih Wu*, “Investigation on Suppressed Thermal Runaway of Li-ion Battery by Hyper-Branched Polymer Coated on Cathode,” Electrochimica Acta 101, 11–17 (2013).(SCI, EI)

20. Rung-Chuan Lee, Yen-Po Lin, Yu-Ting Weng, Hsiao-An Pan, Jyh-Fu Lee, and Nae-Lih Wu,* “Synthesis of High-Performance MnOx/Carbon Composite as Lithium-Ion Battery Anode by a Facile Co-Precipitation Method: Effects of Oxygen Stoichiometry and Carbon Morphology,“ J. Power Sources, in press (2014).(SCI, EI)