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. Development and application of hybrid electrodes for energy storage 混成式電極開發與應用 sponsored by Taiwan Textile Research Institute NT$ 60,000; 2008/3/1-2008/11/30

2. Development of LiFePO4 powder of high tap density 高粉體密度鋰鐵磷酸鹽粉體的開發 sponsored by Industrial Technology Research Institute NT$ 1,000,000; 2008/1/1-2008/11/30

3. Advanced 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

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. 2008 獲聘為臺灣大學終身特聘教授

代表著作 所有著作

1. Yong-Mao Lin, Hung-Chun Wu,, Yu-Chan Yen, Zheng-Zhao Guo, Mo-Hua Yang,, Hui-Min Chen, Hwo-Shuen Sheu and Nae-Lih Wu, “Enhanced High-Rate Cycling Stability of LiMn2O4 Cathode by ZrO2 Coating for Li-ion battery,”,  J. Electrochem. Soc. 152 (8) A1526-1532 (2005). (SCI, EI).

2. Chin-Cheng Hsu and Nae-Lih Wu, “Synthesis and Photocatalytic Activity of ZnO/ZnO2 Composite,” J. Photochem. Photobio. A, Vol 172/3, 269-274 (2005). (SCI, EI)

3. Ying-Chieh Weng, I. A. Rusakova, Andrei Baikalov, J. W. Chen, and Nae-Lih Wu,  “Microstructural Evolution of Nanocrystalline Magnetite Synthesized by Electrocoagulation,” J. Mater. Res., 20, 75-80 (2005). (SEI, EI)

4. Shih-Yu Wang, Kuo-Chuan Ho, Shin-Liang Kuo and Nae-Lih Wu, “Investigation on Capacitance Mechanisms of Fe3O4 Electrochemical Capacitors,” J. Electrochem. Soc., 153, A75-80 (2006). (SCI, EI)(合著)

5. M.Sivakumar, R.Subadevi, S.Rajendran, Nae-Lih Wu, and J. Y. Lee, “Electrochemical Studies on [(1-x)PVA-xPMMA] Solid Polymer Electrolytes Complexed with LiBF4,” Mater. Chem. Phys. 197 (No.2-3) 30-336 (2006). (SCI, EI).

6. Hao-Hsun Chang, Chun-Chih Chang, Hung-Chun Wu, Zheng-Zhao Guo, Mo-Hua Yang, Yung-Ping Chiang, Hwo-Shuenn Sheu, and Nae-Lih Wu , “Kinetic Study on Low-Temperature Synthesis of LiFePO4 via Solid-State Reaction,” J. Power Sources 158, 550-556 (2006). (SCI, EI).

7. Shin-Liang Kuo and Nae-Lih Wu, “Investigation on Pseudocapacitive Charge-Storage Reaction of MnO2nH2O Supercapacitor in Aqueous Electrolytes”, J. Electrochem. Soc. 153, A1317-1324 (2006). (SCI, EI).

8. Shin-Liang Kuo and Nae-Lih Wu, “Electrochemical Characterization on MnFe2O4/Carbon Black Composite Aqueous Supercapacitors,” J. Power Sources, 162, 1437-1443 (2006). (SCI, EI).

9. Hung-Chun Wu, Ching-Yi Su, Deng-Tswen Shieh, Mo-Hua Yang, and Nae-Lih Wu, “Enhanced High-Temperature Cycle-Life of  LiFePO4-based Li-ion Batteries by Vinylene Carbonate as Electrolyte Additive,” Electrochem. Solid-State Lett., 9, A537-541 (2006). (SCI, EI).

10. S.Rajendran, M.Sivakumar, R.Subadevi, Nae-Lih Wu, J.-Y.Lee, “Electrochemical investigation on the effect of dispsersoid in PVA based solid polymer electrolytes,” J. Appl. Polymer Sci., 103, 3950-3956 (2007). (SCI, EI).

11. Shin-Liang Kuo, Jyh-Fu Lee and Nae-Lih Wu, “Study on Pseudocapacitance Mechanism of Aqueous MnFe2O3 Supercapacitor,” J. Electrochem. Soc. 154, A34-38 (2007). (SCI, EI)

12. Wei-Ren Liu, Nae-Lih Wu, Deng-Tswen Shieh, Hung-Chun Wu,  Mo-Hua Yang,  Christiane Korepp, J. O. Besenhard, and Martin Winter, “Synthesis and Characterization of Nanoporous NiSi-Si Composite Anode for Lithium-Ion Batteries,” J. Electrochem. Soc. 154, A97-102 (2007) (SCI, EI).

13. M.Sivakumar, R.Subadevi, S.Rajendran, H. C.Wu, N. L. Wu, “Comparison of PEMA and PMMA in PVdF gel polymer electrolytes”, Europ. Polymer J. 43, 4466-4473 (2007) (SCI, EI).

14. Shin-Liang Kuo and Nae-Lih Wu, “Electrochemical Capacitor of MnFe2O4 with Organic Li-Ion Electrolyte,” Electrochem. Solid-State Lett. 10, A171-175 (2007) (SCI, EI).

15. Yi-Chien Hsieh, Kuang-Tsin Lee, Yen-Po Lin, Nae-Lih Wu, and Scott W. Donne, “Investigation on Capacity Fading of Aqueous MnO2nH2O Electrochemical Capacitor,” J. Power Sources, 177, 660-664 (2008) (SCI, EI).

16. Hao-Hsun Chang, Chun-Chih Chang, Hung-Chun Wu, Mo-Hua Yang, Hwo-Shuenn Sheu, and Nae-Lih Wu, “Study on Dynamics of Structural Transformation During Charge/Discharge of LiFePO4 Cathode,” Electrochem. Commun. 10, 335-339 (2008) (SCI, EI).

17. Kuang-Tsin Lee and Nae-Lih Wu, “Manganese Oxide Electrochemical Capacitors with Potassium Poly(acrylate) Hydrogel Electrolyte,” J. Power Sources, 179, 430-434 (2008) (SCI, EI).

18. Hao-Hsun Chang, Hung-Chun Wu, and Nae-Lih Wu, “Enhanced High-Temperature Cycle Performance of LiFePO4/Carbon Batteries by an Ion-Sieving Metal Coating on Negative Electrode,” Electrochem. Commun. 10, 1823-1826 (2008) (SCI, EI).

19. Hao-Hsun Chang, Chun-Chih Chang, Ching-Yi Su, Hung-Chun Wu, Mo-Hua Yang, and Nae-Lih Wu, “Effects of TiO2 Coating on High- Temperature Cycle Performance of LiFePO4-based Lithium-ion Batteries,” J. Power Sources 185, 466-472 (2008) (SCI, EI).

20. Yu-Chan Yen, Sung-Chieh Chao, Hung-Chun Wu, and Nae-Lih Wu, “Study on Solid-Electrolyte-Interphase of Si and C-coated Si anodes,” J. Electrochem. Soc., in press (2008) (SCI, EI).

Patents

1. Nae-Lih Wu and S-Y. Wang, “A process for fabricating crystalline metal oxide materials,” US patent 6168830B1 (2001/1/2-2019/7/28).

2. 吳乃立,王世源, “具高比表面積的氧化物晶型材料的製作方法,” 中華民國專利第139569號(2001/9/1-2019/7/27).

3. 薛立人,吳乃立,吳典熹,藍怡萍, “含水氧化鐵超高電容器,” 中華民國專利第156311號 (2002/6/1-2021/1/10).

4. 薛立人,吳乃立,吳典熹,藍怡萍, “Supercapacitors made of hydrous Iron oxides,” US Patent 6678147B2 (2004/1/13~2021/1/8).

5. 吳弘俊、楊模樺、吳乃立、劉偉仁, “二次鋰離子電池之負極材料,” 中華民國專利第I263702號 (2006/7/16-2024/12/30).

6. 吳乃立、王世育、王凱偉, “電化學電容器的電極材料,” 中華民國專利第I267217號 (2006/1/16-2024/7/7).

7. 吳弘俊、蘇靜怡、謝秉勳、林炳明、楊模樺、吳乃立, “具有大電流放電能力之鋰離子二次電池,” 中華民國專利第I270994號 (2007/1/11-2025/12/28).

8. 吳乃立、郭信良， “高功率電化學電極”，中華民國專利第I284997號 (2007/8/1-2025/8/3)

9. 吳乃立、徐金正，“一種製備光觸媒組合物的方法”，中華民國專利第I301776號 (2008/10/11-2025/2/1)

Technology Transfer

1. 技術移轉:「鋰離子二次電池正極結構穩定性的提昇」; 特創科技股份有限公司; 5萬元; 2005/5/31~2010/5/31

2. 技術移轉: 「混成式電極」; 財團法人紡織產業綜合研究所; 6萬元; 2008/3/1~2008/11/30