Professor


 

Nae-Lih Wu Professor

吳乃立 教授

phone:886-2-23627158 or 886-2-33663995
fax:886-2-23623040

email: nlw001

office:208A

 

Lab Info

Energy Materials Laboratory

108; 工綜415

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

Education Background

B.S. Ch.E. National Taiwan University 1980
Ph.D. Ch.E. Penn. State University 1987


Research Topic

Synthesis and Characterization of Nanocrystalline Metal and Oxide Particles
Methodologies are being developed for large-scale synthesis of fully crystallized nanocrystalline and nanoporous transition metal oxide powders and metal colloids with crystallite sizes less than 10 nm. Novel phase stability and electronic and electrochemical properties exhibited by these materials are being investigated.

 

Li-ion battery and Supercapacitors
Synthesis of nanocrystalline and nanoporous electrode materials exhibiting large charge/discharge capacity and cycle life for Li-ion secondary battery and supercapacitor applications.


Recent Research Topic

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
 


Honor

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
 

 
The Representative Publication Recent 5-years Publication

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)