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王復民

個人網站
應用科技研究所
 
學經歷:
  學歷:
國立清華大學化學工程博士(2005.9~2009.7)
國立臺灣科技大學化學工程碩士(2002.9~2004.7)

經歷:
1.財團法人車輛研究測試中心 車輛學院課程講師,2013.10
2.國際SCI期刊Thin Solid Films客座編輯(Guest Editor),2013.9
3.行政院國家發展基金投資案審查委員,2013.8
4.行政院經濟部電動機車發展推動審議會審查委員,2013.8
5.行政院經濟部電動機車產品暨能源補充設施技術審查委員,2012.7, 2012.10, 2013.3, 2013.6, 2013.7, 2013.8, 2013.10
6.行政院經濟部公司研究發展活動審查認定審查委員,2012.7
7.財團法人自強工業基金會課程講師,2012.6, 2013.1, 2013.12
8.國立臺灣科技大學 應用科技研究所 助理教授 (Assistant Professor, Graduate Institute of Applied Science and Technology, National Taiwan University of Science and Technology, 2011.8-present)
9.國立臺灣科技大學 工程技術研究所 助理教授 (Assistant Professor, Graduate Institute of Engineering, National Taiwan University of Science and Technology, 2010.2-2011.7)
10.財團法人工業技術研究院 材料與化工研究所 顧問/特聘研究員 (Consultant/ Special invited researcher, Material and Chemical Research Laboratories, Industrial Technology Research Institute, 2010.3-present)
11.財團法人工業技術研究院 材料與化工研究所 研究員(Researcher, Material and Chemical Research Laboratories, Industrial Technology Research Institute, 2009.7-2010.1)
12.財團法人工業技術研究院 材料與化工研究所 副研究員(Assoicate Researcher, Material and Chemical Research Laboratories, Industrial Technology Research Institute, 2004.8-2009.6)
13.台塑關係企業 總管理處 六輕環境管理中心 實習工程師 (Practical Training Engineering, General Office of Formosa Plastic Group, 1999.11~2000.1)
14.台灣化學纖維股份有限公司 嫘縈事業部二廠 實習工程師 (Practical Training Engineering, Formosa Chemicals & Fiber Corporation, 1999.1~1999.3)
15.台塑關係企業 總管理處 採購部 電子材料組 實習工程師 (Practical Training Engineering, General Office of Formosa Plastic Group, 1998.1~1998.3)
 
專業技術
  1. 新型高導離子軟物質開發用於車用鋰電池、薄膜鋰電池及有機太陽能電池
2. 開發可提升鋰離子電池性能及安全性之智慧型添加劑
3. 鋰離子電池與有機太陽電池之電解質離子傳導機制研究
4. 三極暨四極式電池系統開發
   
專利介紹
  含金屬電解質及其製造方法  
本案所開發的固態高分子聚電解質是採用預鹼金屬離子化(比如預鋰化)不飽和碳雙鍵之烯酸,並以氫化矽烷化反......
 

  鋰-碳化物合金、其製備方法以及全固態鋰離子電池  
本發明係以鋰金屬碳化物合金方式製作全固態鋰離子電池,其中以鋰金屬與碳化物共融合成鋰金屬合金,所合成之......
 

  製備陽極結構的方法以及包含陽極結構的電池  
本案採用常壓式大氣電漿進行氮化銅表面改質銅箔,在第一次充電之後可以形成奈米級氮化鋰保護層,此保護層可......
 

  電極結構  
本發明同時結合無機鍍層與有機鍍層之方法,可穩定、保護電池材料之表面結構,並同時增加電池材料整體導電性......
 

  分解鋰化合物的方法  
本案為開發一款以壓克力環氧樹脂與巴比妥酸所合成的有機觸媒系統,透過酸化以及有機觸媒上的結構轉換(tr......
 

  電解質組合物及鋰電池  
鋰離子電池電動車市場逐漸增長,如何有效提高電池在汽車高溫環境中循環壽命與安全性漸漸受到矚目,一般商業......
 

  鋰電池的正極材料的製備方法  
本技術是使用鋰離子電池正極材料中的鎳過渡金屬離子催化效應,讓所添加於正極漿料中的有機分子(包括小分析......
 

  寡聚物與鋰電池  
An oligomer-polymer and a lithium battery are prov......
 

  寡聚物高分子與鋰電池  
本技術之創新在於可以藉由Epoxy diacrylate resins (EA)合成出一款新型態電化......
 

  聚合物與鋰電池  
Polymer and a lithium battery are provided. The po......
 

  寡聚物高分子與鋰電池  
鋰離子電池電動車市場逐漸增長,如何有效延長電池的循環壽命是非常重要的研究課題。以目前全球技術來說,並......
 

  蛋白質感測器及其製造方法  
本發明是利用大氣電漿技術將親水官能基透過化學反應後,置放於疏水材料表面上,例如金片或是碳/石墨。藉由......
 

  鋰化電極材料、鋰化電極材料之製備方法以及電極  
本案所開發的為表面具有預鋰化有機酸小分子披覆的氧化矽材料,透過有機酸小分子結構上的唆基(-COOH)......
 

  矽化合物、其製備方法與鋰電池  
本技術是將一端具有未飽和碳氫(烯烴)以及另一端具有羧基的化合物接枝於矽材料表面上,透過此高分子刷的設......
 

專利技術櫥窗
 


鋰電池及其製造方法

鋰離子電池及其製造方法


鋰離子電池其陽極保護層之結構及製造方法

鋰電池
研究成果與計畫
 

教授課程

普通化學, 基礎電化學, 能源科技與環境概論, 先進電池科技概論, 高等電化學工程與分析技術, 電化學交流阻抗頻譜分析與應用, 高分子電解質與固態離子學, 電動車用動力鋰離子電池特論

榮譽獎項

行政院國家科學委員會 優秀年輕學者研究計劃 (2011-2013)
STOBA Technology, R&D 100 Award Winners (2009)
Oronzio and Niccol De Nora Foundation Young Author Prize Candidate of ISE, Switzerland (2009)
工業技術研究院傑出研究獎金牌 (2009)
工業技術研究院材化所專利發明獎第二名(2008)

 著作

1.Jyh-Tsung Lee*,Fu-Ming Wang, Yueh-Wei Lin, Meng-Yi Bai, andPin-Chi Julia Chiang, “Effects of Aromatic Esters as Propylene Carbonate-Based Electrolyte Additives in Lithium-Ion Batteries”, J. Electrochem. Soc., 152 (2005) A47
 
2. Jyh-Tsung Lee*,Fu-Ming Wang, H. W. Liao, Chia-Chen Li, Shu-Mei Chang, Chang-Rung Yang, “Gel Polymer Electrolytes Prepared by in-situ Atom Transfer Radical Polymerization at Ambient Temperature”, Electrochem. and Solid State Letters 10 (2007) A97
 
3.Norman Lu*, Yu-Mei Ho, Chi-Wen Fan, Fu-Ming Wang and Jyh-Tsung Lee, “A           simple method for synthesizing polymeric lithium salts exhibiting relatively high cationic transference number in solid polymer electrolytes”, Solid State Ionics 17 (2007) 347
                                                                                                                                                                                        
4. Jyh-Tsung Lee*, Yung-Ju Chu, Fu-Ming Wang, Chang-Rung Yang, and Chia-Chen Li, “Aqueous processing of lithium-ion battery cathodes using hydrogen peroxide-treated vapor-grown carbon fibers for improvement of electrochemical properties”, J. Mater. Sci. 42 (2007) 10118
 
5. Jyh-Tsung Lee, Yung-Ju Chu, Xing-Wei Peng, Fu-Ming Wang, Chang-Rung Yang, and Chia-Chen Li*, “A novel and efficient water-based composite binder for LiCoO2 cathodes in lithium-ion batteries”, J. Power Sources 173 (2007) 985
 
6. C. C. Chen, K. F. Chiu* K. M. Lin, H. C. Lin, C. R. Yang and F. M. Wang, Improved electrochemical performances of oxygen plasma treated LiMn2O4 thin films”, Phys. Scr.T129 (2007) 74
 
7.Fu Ming Wang*, Jyh Tsung Lee, Ju Hsiang Cheng, Chin-Shu Cheng and Chang Rung Yang,The network gel polymer electrolyte based on poly(acrylate-co-imide) and its transport properties in lithium ion batteries”, J. Solid State Electrochem.13(2009) 1425
 
8. Fu Ming Wang*, Chi Chao Wan and Yung Yun Wang, “Synthesis of functionalized copolymer electrolytes based on polysiloxane and analysis of their conductivity”, J. Appl. Electrochem. 39 (2009) 253
 
9. Fu Ming Wang*, Hung-Chun Wu, Chin-Shu Cheng, and Chang Rung Yang, “High ionic conductivity of hyperbranched- network gel copolymer electrolyte for Hybrid Electric Vehicle (HEV) potentially application”, Eletrochem. Acta 54 (2009) 3788
 
10. Fu Ming Wang*, Hsin-Mei Cheng, Hung-Chun Wu, San-Yan Chu, Chin-Shu Cheng and Chang Rung Yang, “Novel SEI formation of maleimide based additives and its improvement of capability and cyclicability in lithium ion batteries”, Eletrochem. Acta 54 (2009) 3344
 
11. Fu Ming Wang*, Chien-Chieh Hu, Shen-Chuan Lo, Yung Yun Wang and Chi Chao Wan, “The investigation of electrochemical properties and ionic motion of functionalized copolymer electrolytes based on polysiloxane”, Solid State Ionics 180 (2009) 405
 
12. Fu Ming Wang*, Yung Yun Wang and Chi Chao Wan, “The ionic motion and transfer mechanism of functionalized polysiloxane copolymer electrolytes”, ECS Transactions 16 (2009) 91
 
13. Fu Ming Wang*, Chien-Chieh Hu, Shen-Chuan Lo,Yung Yun Wang and Chi Chao Wan, “Definition of ionic transfer mechanisms based on positron annihilation studies in lithium batteries”,  J. Electroanal. Chem.644(2010) 25
 
14. Fu Ming Wang*, Deng-Tswen Shieh,Ju Hsiang Cheng, and Chang Rung Yang, “An investigation of the salt dissociation effects on solid electrolyte interface (SEI) formation using linear carbonate-based electrolytes in lithium ion batteries”,  Solid State Ionics 180 (2010) 1660
 
15. Chen-Chung Chen, Kuo-Feng Chiu*, Kun-Ming Lin, Hsin-Chih. Lin, Chang-Rung Yang, Fu-Ming Wang, and Ming Hsing Chiang, “Structural evolution and electrochemical performances of oxygen plasma treated LiMn2O4 thin film cathodes”, J. Electrochem. Soc.157 (2010) A289
 
16. Chia-Chen Li*, Xing-Wei Peng, Jyh-Tsung Lee, and Fu-Ming Wang, “Using Poly(4-Styrene Sulfonic Acid) to Improve the Dispersion Homogeneity of Aqueous-Processed LiFePO4 Cathodes”, J. Electrochem. Soc.157 (2010) A517
 
17. Fu-Ming Wang*, Yung-Yun Wang and Chi-Chao Wan, “The Novel Ionic Transfer Detecting Methodology of Lithium Polymer Battery by Positron Annihilation Studies”, ECS Transactions 25 (2010) 139
 
18. Jyh-Tsung Lee,Fu-Ming Wang*, Chin-Shu Cheng and Chia-Chen Li,Low-Temperature Atomic Layer Deposited Al2O3 Thin Film on LiCoO2 Cathode for Enhanced Cycleability of Lithium-Ion Batteries”, Eletrochem. Acta55(2010) 4002
 
19. Fu-Ming Wang*, Shen-Chuan Lo, Chin-Shu Cheng, Jung-Hsuan Chen, Bing-Joe Hwang and Hung-Chun Wu, ”Self-polymerized membrane derivative of branched additive for internal short protection of high safety lithium ion battery”,  J. Membrane. Sci. 368 (2011) 165
                                                                                           
20. Chen-Chung Chen, Kuo-Feng Chiu*, Kun-Ming Lin, Hsin-Chih Lin, Ming-Hsing Chiang, Chang-Rung Yang, and Fu-Ming Wang, “Combinational effects of oxygen plasma irradiation and annealing on LiMn2O4 thin film cathodes”,  J. Electrochem. Soc. 158 (2011) A262
 
21. Fu Ming Wang*, Ju Hsiang Cheng, Bing-Joe Hwang andRaman Santhanam “Combined effects of ceramic filler size and  ethylene  oxide length on the ionic transport properties of solid polymer electrolyte derivatives of PEGMEMA”, J. Solid State Electrochem. (2011) in press
 
22. Fu-Ming Wang*, Meng-Han Yu, Ying Tsai, Yi-Ju Hsiao, Che-Yu Ling,Bing-Joe Hwang, Yung-Yun Wang and Chi-Chao Wan, “Aging Effects to Solid Electrolyte Interface (SEI) Membrane Formation and the Performance Analysis of Lithium Ion Batteries”, Int. J. Electrochem. Sci.,6 (2011) 1014
 
23.Fu-Ming Wang*, Chia-Hsien Chu, Chia-Hua Lee, Jia-Yin Wu, Bing-Joe Hwang, Kun-Mu Lee, Yung-Liang Tung, Yung-Yun Wang and Chi-Chao Wan, “An Ionic Transfer Investigation of Tri-Iodine of Solvent-Free Oligomeric Electrolytes in Dye-Sensitized Solar Cells”, Int. J. Electrochem. Sci.,6 (2011) 1100
 
24.Hsin-Yi Wang, Fu-Ming Wang*, Yung-Yun Wang, Chi-Chao Wan, Bing-Joe Hwang, Raman Santhanam and Rick John, “Electrochemical-reduced installation and method for synthesizing nano-sized Pt on multi-wall carbon nanotube”, J.  Phys. Chem. C 115 (2011) 8439
 
25. Fu-Ming Wang*, Chia-Hsien Chu, Yung-Liang Tung,Bing-Joe Hwang, Yung-Yun Wang, Chi-Chao Wan and Raman Santhanam, “Influences of repeat unit effect on novel Newtonian fluid like polysiloxane based electrolytes for solvent free dye sensitive solar cells”,J. Solid State Electrochem. (2011) in press
 
26. Ho-Ming Cheng, Fu-Ming Wang*, Bing-Joe Hwang, Jinn P. Chu and Raman SanthanamA Combined Theoretical and Experimental Study on the Enhanced Cycleability of LiCoO2 in Lithium Ion Battery Using Surface Coating by Atomic Layer Deposition”, in preparation     Chem. Mater. (2011)
 
27. Fu-Ming Wang*, Hsin-Yi Wang, Meng-Han Yu, Yi-Ju Hsiao, Ying Tsai, Bing-Joe Hwang, Yung-Yun Wang and Chi-Chao Wan, Differential pulse effects of solid electrolyte interface formation for improving performance on high-power lithium ion battery, in preparation   J. Power Sources(2011)
 
28. Fu-Ming Wang*, Breakthrough additive technology for improving performance of high-power lithium ion battery”,  MRS Commun. (2011) submitted
 
國際會議論文
1.       J. -T.Lee*, M. -S. Wu, H. -M. Liao and F. -M. Wang Preparation of Polymer Gel Electrolyte Using Atom Transfer Radical Polymerization at Room Temperature”, 2nd International Conference on Polymer Batteries and Fuel Cells (2005), Las Vegas, Nevada, USA
 
2. Fu Ming Wang*, Jyh Tsung Lee, Chang Rung Yang, and Jing Pin Pan “Effect of various length EO side chain of Gel Polymer Electrolyte Based on poly [(ethylene glycol) methyl ether mathacrylate”, 232nd ACS National Meeting & Exposition (2006) , San Francisco, CA, USA
 
3. Fu Ming Wang*, Ya Tin Hsu, and Chang Rung Yang “Thin film tag and flexible battery technology”, The International Symposium on Flexible Electronics and Display (ISFED) (2006), Hsinchu, Taiwan
 
4. Fu Ming Wang*, Jyh Tsung Lee, Chang Rung Yang, and Ju Hsiang Cheng, “EO influence of ionic transport of polyacrylate based nano composite electrolyte for lithium ion battery”, 211th ECS Meeting (2007), Chicago, Illinois, USA
 
5. Fu Ming Wang*, Jyh Tsung Lee, Chang Rung Yang, and Ju Hsiang Cheng, “Ionic transport and diffusion behavior of low dielectric electrolyte systems with lithium tetrafluoroborate for lithium ion battery”, 211th ECS Meeting (2007), Chicago, Illinois, USA
 
6. Fu Ming Wang*, and Chang Rung Yang, “High ionic conductivity of hyperbranched-network gel copolymer electrolyte for Hybrid Electric Vehicle (HEV) potentially application”, 14th International Meeting on Lithium Batteries (2008), Tianjin, China
 
7. Fu Ming Wang*, Hung-Chun Wu, Ju Hsiang Cheng, Chin-Shu Cheng andChang Rung Yang, “Novel SEI formation of maleimide based additives and its improvement of capability and cyclicability in lithium ion batteries”, 14th International Meeting on Lithium Batteries (2008), Tianjin, China
 
8. Fu Ming Wang*, Yung Yun Wang and Chi Chao Wan, “The new siloxane copolymer electrolyte and its electrochemical, ionic motion properties”, PRiME 2008, 214th ECS Meeting (2008), Honolulu, Hawaii, USA
 
9. Fu Ming Wang*, “Capability improvement and novel SEI formation of imide based additives in lithium ion battery”, PRiME 2008, 214th ECS Meeting (2008), Honolulu, Hawaii, USA
10. Fu-Ming Wang*, Chin-Shu Cheng ,Chia-Chen Li, Jyh-Tsung Lee, “Low-Temperature Atomic Layer Deposited Al2O3 Thin Film on LiCoO2 Cathode for Enhanced Cycleability of Lithium-Ion Batteries’’, 216th ECS Meeting (2009),Vienna, Austria
 
11. Fu-Ming Wang*, Yung-Yun Wang and Chi-Chao Wan, “The novel ionic transfer detecting methodology of lithium polymer battery by positron annihilation studies’’, 216th ECS Meeting (2009),Vienna, Austria
 
12. Fu-Ming Wang*, Meng-Han Yu, Ying Tsai, Yi-Ju Hsiao, Che-Yu Ling, Yung-Yun Wang and Chi-Chao Wan, “Formation of SEI on temperature controlled process for lithium ion batteries’’, 216th ECS Meeting (2009), Vienna, Austria
 
13.Fu-Ming Wang*, Meng-Han Yu, Ying Tsai, Yi-Ju Hsiao, Che-Yu Ling, Yung-Yun Wang and Chi-Chao Wan, “Formation of SEI on temperature controlled process for lithium ion batteries’’, 4th Asian Conference on Electrochemical Power Sources (2009), Taipei, Taiwan
 
14. Fu-Ming Wang*, Yung-Yun Wang and Chi-Chao Wan, “The novel ionic transfer detecting methodology of lithium polymer battery by positron annihilation studies’’, 3rd Symposium on Power Sources for Energy Storage and their Key Materials (2009),Shanghai, China
 
15.Fu Ming Wang*,Bing-Joe Hwang, Chang-Rung Yang and Jing-Pin Pan, “An internal short preventing technique of spontaneous polymerized membrane with branched maleimide structure in lithium ion battery”, 15th International Meeting on Lithium Batteries (2010), Montréal, Canada
 
16.Fu-Ming Wang*, Bing-Joe Hwang, Meng-Han Yu, Ying Tsai, Yi-Ju Hsiao, Che-Yu Ling, Yung-Yun Wang and Chi-Chao Wan,The characterize of SEI investigation on temperature controlled formation process for lithium ion batteries”, 15th International Meeting on Lithium Batteries (2010), Montréal, Canada
 
17. Fu-Ming Wang*, Bing-Joe Hwang, Meng-Han Yu, Yung-Yun Wang and Chi-Chao Wan,The substituent positions effects of novel SEI formation of maleimide based additives and its rate enhancementin lithium ion battery”, 15th International Meeting on Lithium Batteries (2010), Montréal, Canada
 
18. Alex Peng, Jing-Pin Pan, Chang-Rung Yang, Jung-Mu Hsu, Tsung-Hsiung Wang, Hung-Chun Wu*, Fu-Ming Wang, Chin-Shu Cheng, Yueh-Wei Lin, Jen-Jeh Lee and Chung-Liang Chang, “Safety technology for Li-ion batteries”, 15th International Meeting on Lithium Batteries (2010), Montréal, Canada
 
19.Meng-Han Yuand Fu-Ming Wang*, “Substitute functional group effects of novel maleimide based additives in lithium ion battery”, 2011 MRS Spring Meeting (2011), San Francisco, California, USA
 
20. Chin-Shu Cheng and Fu-Ming Wang*, “Does lithium ion battery need moisture?”, 2011 MRS Spring Meeting (2011), San Francisco, California, USA
 
21. Fu-Ming Wang*, “Self-polymerized membrane derivative of branched additive for internal short protection of high safety lithium ion battery”, The first US-Taiwan Workshop on Materials and Systems Challenges in Electrical Energy Storage (2011), Taipei, Taiwan
 
22. Fu-Ming Wang*, Shen-Chuan Lo, Chin-Shu Cheng, Jung-Hsuan Chen, Bing-Joe Hwang, and Hung-Chun Wu, “Self-polymerized membrane derivative of branched additive for internal short protection of high safety lithium ion battery”, 62nd Annual Meeting of the International Society of Electrochemistry (2011), Niigata, Japan
 
23. Chin-Shu Cheng and Fu-Ming Wang*, “Is water an additive in lithium ion battery?”, 62nd Annual Meeting of the International Society of Electrochemistry (2011), Niigata, Japan
 
24. Eric Kristia Putra, Ju-Hsiang Cheng, Fu-Ming Wang* and Bing-Joe Hwang*, “Nitrogen doped carbon coating for enhanced performance of LiFePO4 for Lithium secondary battery”, 62nd Annual Meeting of the International Society of Electrochemistry (2011), Niigata, Japan
 
25. Hsin-Yi Wang, Fu-Ming Wang* and  Bing-Joe Hwang, “Multistage constant current for fast-charging Li-ion battery with enhanced long cycle life”, 62nd Annual Meeting of the International Society of Electrochemistry (2011), Niigata, Japan
 
26. Fu-Ming Wang*, Yung-Yun Wang and Chi-Chao Wan, A novel ionic transfer detection methodology based on positron annihilation studies of lithium ion batteries”, IUPAC 7th International Conference on Novel Materials and their Synthesis (NMS-VII) & 21st International Symposium on Fine Chemistry and Functional Polymers (FCFP-XXI) (2011), Shanghai, China
專利
1. The flexible package and its applications,Fu-Ming Wang*、Mau-Song WuJyh-Tsung LeePin-Chi Julia Chiang,R. O. C. Patent No. I269454
 
2. A package for using in the energy resources and its manufacturing,Fu-Ming Wang*、Mau-Song WuJyh-Tsung LeePin-Chi Julia Chiang,R. O. C. Patent No. I270093;P. R. C Patent No. ZL200510132981.6
 
3. A maleimide based nonflammable electrolyte,Fu-Ming Wang*、Jing-Pin PanChang-Rung YangJung-Mu HsuYueh-Wei Lin,R. O. C. Patent No. I338964;P. R. C Patent No. ZL200610156655.3 ;U. S. A.Patent No. US 7875204 B2
 
4.Electrochemical units,Fu-Ming Wang*、Chang-Rung Yang,R. O. C. Apply No. 95149997
 
5. Electrolytic Solution and Lithium Battery Employing The Same,Fu-Ming Wang*、Chang-Rung YangJing-Pin PanHung-Chun Wu,R. O. C. Apply No. TW200926479;P. R. C Apply No.CN 101471456A;U .S. A. Apply No.US 2009/01426760 A1
 
6. The self-growing cathode material technique,Fu-Ming Wang*、K. F. ChiuC. C. ChenChang-Rung Yang,R. O. C. Apply No. 97138181;P. R. C Apply No. 200810175118.2;U .S. A. Apply No. 12/362,852
 
7. A binderfor using in the cathode material of lithium ion battery and its applications,Fu-Ming Wang*、Chang-Rung YangJyh-Tsung LeeChia-Chen LiYung-Ju ChuXing-Wei Peng,R. O. C. Apply No. 97145454;P. R. C Apply No. 200810189429.4
 
8. High capacity anode material of lithium ion batteryHung-Chun Wu、Fu-Ming WangChing-Yi SuChang-Rung YangJing-Pin PanYu-Chan YenNae-Lih Wu,R. O. C. Apply No. 97122518;P. R. C Apply No. 200810167119.2;U .S. A. Patent No. 7,807,301
 
9. Lithium ion batteryHung-Chun WuChin-Shu ChengJung-Mu Hsu、Fu-Ming WangChang-Rung YangJing-Pin PanChing-Yi Su,R. O. C. Apply No. 97151797;P. R. C Apply No. 200810985711.2;U .S. A. PatentUS 7807301 B2
 
10. Core-shell structure as a safety additive in energy storage device,Fu-Ming Wang*,in preparation
 
11. A polymer electrolyte provides SEI function in energy storage device,Fu-Ming Wang*,in preparation
 
12. Plasma powder treatment technique for improving battery performance,Fu-Ming Wang*,in preparation
 
13. An interface material application of lithium based metal oxide in lithium ion battery,Fu-Ming Wang*,in preparation
其他著作
1.       Fu-Ming Wang*, Pin-Chi Julia Chiang, “ Flexible lithium battery”, Industry Materials  223 (2005) 102
 
2.       Ya-Ting Hsu, Fu-Ming Wang*, Chang-Rung Yang,The develop history of electrolyte in lithium ion battery”, Industry Materials 237(2006) 145
 
3.       Fu-Ming Wang*, Chang-Rung Yang,Ionic transfer and diffusion behavior of lithium ion battery”, Industry Materials 238 (2006) 142
 
4.       Fu-Ming Wang*, “Flexible lithium battery”,2006 Annual Meeting of Materials of R.O.C.Tawian
 
5.       Pin-Chi Julia Chiang, Fu-Ming Wang*, Chang-Rung Yang,Introduction of flexible battery in the worldwide”, Industry  Materials 240 (2006) 81
 
6.       C. C. Chen, K. F. Chiu*, Fu-Ming Wang,Solid state electrolyte in thin film battery, Industry Materials 240 (2006) 99
 
7.       Yung-Ju Chu, Yi-Ling Tung, Chia-Chen Li, Fu-Ming Wang*, Chang-Rung Yang, “Aqueous processing of lithium-ion battery cathodes using hydrogen peroxide-treated vapor-grown carbon fibers for improvement of electrochemical properties”,2006 Annual Meeting of Materials at R.O.C.Taiwan
 
8.       Fu-Ming Wang*, Chang-Rung Yang, Yu-Hsin Lee, Ming-Chin Chen,The rheology investigation of LiMn2O4 slurry and the relationship of battery performance”, Coating Technology 13 (2007) 256
 
9.       Chin-Shu Cheng, Fu-Ming Wang*, Polymer electrolyte in thin film battery”, Industry Materials 252 (2007) 113
 
10.    Yu-Hsin Lee, Fu-Ming Wang*, “Package technique in thin film battery”, Industry Materials 252 (2007) 128
 
11.    Fu-Ming Wang*, “Nonflammable electrolyte in lithium ion battery”, Industry Materials264 (2008) 123
 
12.    Fu-Ming Wang*, “The view of safety design on lithium battery from patent map to Japanese manufactory”,Industry Materials 275 (2009) 47
 
13.    C. C. ChenK. F. Chiu*Fu-Ming Wang, “Stability Improvement of LiMn2O4 Thin-Film Cathodes under High Rate and Over-Discharge Cycling”, Industry Materials 277 (2010) 88
Oral Presentation Attended
  •   Fu Ming Wang, “Novel SEI formation of maleimide based additives and its improvement of capability and cyclicability in lithium ion batteries”, 14th International Meeting on Lithium Batteries (2008), Tianjin, China (invited)
  • Fu Ming Wang, “The new siloxane copolymer electrolyte and its electrochemical, ionic motion properties”, PRiME 2008, 214th ECS Meeting (2008), Honolulu, Hawaii, USA
  •  Fu-Ming Wang, “The novel ionic transfer detecting methodology of lithium polymer battery by positron annihilation studies’’, 3rd Symposium on Power Sources for Energy Storage and their Key Materials (2009),Shanghai, China (invited)
  •   Fu Ming Wang, “Branched additive as self-polymerized SEI for internal short protection in high safety lithium ion battery”, Department of Chemical Engineering, University of Waterloo, Waterloo, Canada (2010) (invited)
  •   Fu-Ming Wang*, Yung-Yun Wang and Chi-Chao Wan, A novel ionic transfer detection methodology based on positron annihilation studies of lithium ion batteries”, IUPAC 7th International Conference on Novel Materials and their Synthesis (NMS-VII) & 21st International Symposium on Fine Chemistry and Functional Polymers (FCFP-XXI) (2011), Shanghai, China (invited)
  •  Fu-Ming Wang*, “Self-polymerized membrane derivative of branched additive for internal short protection of high safety lithium ion battery”, The first US-Taiwan Workshop on Materials and Systems Challenges in Electrical Energy Storage (2011), Taipei, Taiwan (invited)
  •   Fu-Ming Wang*, “Self-polymerized membrane derivative of branched additive for internal short protection of high safety lithium ion battery”, 62nd Annual Meeting of the International Society of Electrochemistry (2011), Niigata, Japan
References
Prof. Chi-Chao Wan (Doctoral Supervisor)
Department of Chemical Engineering
National Tsing Hua University
101, Section 2, Kuang-Fu Road, Hsinchu, Taiwan 30013, R.O.C.
Tel.:       +886-3-3-5721664  
 
 
Prof. Yung-Yun Wang(Doctoral Supervisor) (Retired)
Department of Chemical Engineering
National Tsing Hua University
101, Section 2, Kuang-Fu Road, Hsinchu, Taiwan 30013, R.O.C.
Phone: +886-3-5713690
E-mail: yywang@mx.nthu.edu.tw
 
 
Prof. Yaw-Terng Chern(Master Supervisor)
Department of Chemical Engineering
National Taiwan University of Science and Technology
#43,Sec.4, Keelung Rd.,Taipei,106,Taiwan,R.O.C
Phone: +886-2-27376646
E-mail: cyt@ch.ntust.edu.tw
 
 
Dr.Mo-Hua Yang (Chief Executive Officer)
TD HiTech Energy Inc.
Rm. 520, 5F, Bldg. 52, 195 Chung Hsing Rd., Section 4, Chutung, Hsinchu, Taiwan 31015
Tel: 886-3-583-3967 ext. 201 
Fax: 886-3-583-3825
E-mail: mh.yang@htenergy.com.tw

2011.02.01離職
   

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