王先友教授河南大學

『壹』 王先友的介紹

王先友，男，1962年出生，湘潭大學科技處處長/知識枯碼塵產沒禪權辦公室主任，湖南省二級教授、博士生導師，南京航空航天大模迅學博士生導師。

『貳』 王先友的人物生平

1996年獲中南大學冶金物理化學專業博士學位
1998年南開大學新能源材料化學研究所博士後出站
1999年晉升為教授
2000年在Technion-Israel Institute of Technology博士後研究
2001年在Technical University of Valencia, Spain訪問教授
2003年National Autonomous University of Mexico (UNAM)訪問教授
現，任湘潭大學化學學院教授，博士生導師 本科生：物理化學，電化學原理
碩士生：化學動力學，電化學研究方法
博士生：電化學研究方法原理 1. 具有納米結構的多相氫氧化鎳制備方法.01131636.5
2. 一種制備超鐵(VI)電池電極材料的方法.ZL01131635.7
3. 齒輪電鍍鋅－鐵合金及其黑色鈍化工藝.00113304.7
4. 一種鹼性電池正極材料的制備方法.971331.9
5. 鈉離子電池及其制備方法.200410046836.1
6. 有鎳基復合鍍層的二次電池極片基材.200420068162
7. 一種穿孔鍍鎳鋼帶及其製造方法.200410045047
8.一種鋰二次電池微量水氟化鐵正極材料的制備方法.200710192681
9. 一種鋰二次電池氟化鉍正極材料的制備方法.200710192680.1
10.-MnO2的制備方法.200710192679.9 1.國家自然科學基金項目：基於化學反應交換能量的鋰二次電池新型正極材料的制備及性能研究，批准號：20673092， 2006-2007， 主持 2.
「十一五」國防基礎科研項目，2005-2007，批准號： A3720 061186，主持
3.2004年度國家自然科學基金項目：鈉離子電池正極材料的
制備及其性能研究，2005-2007，批准號: 50472080， 主持；
4．「十五」國家科技攻關計劃引導項目：高性能MH-Ni電池電極材料的制備及應用研究，批准號：2003BA433C，與江西晶安高科技股份有限公司聯合申報，主持研究；
5．湖南省2004年自然科學基金項目：鈉離子電池氟磷酸鹽正極材料的研究，2004-2005，批准號：04JJ3040，主持；
6．湖南省教育廳教育部重點項目：鋰離子電池新型正極材料—高性能層狀錳酸鋰的制備及性能研究，2004-2006，批准號：04A054，主持；
7．教育部重點項目：鋰離子電池新型正極材料—高性能層狀錳酸鋰的制備及性能研究，2004-2006，批准號：205109，主持；
8．2005年湖南省重點項目：高性能層狀錳酸鋰的制備及性能研究，2005-2007，批准號：05GK2015，主持；
9．2005年湖南省自然科學基金重點項目：鈉離子電池氟磷酸鹽正極材料的研究，2005-2007，批准號：05JJ20013，主持；
10．江蘇省自然科學基金項目：鈉離子新型正極材料的制備及性能研究，2003-2005，批准號：BK2003092，主持
11．橫向聯合項目：電動汽車及電動自行車用動力電池高性能電極材料的研究，與江西晶安化工有限公司簽訂130萬合作開發合同，共同研究和開發電動自行車用MH/Ni電池高性能電極材料，主持。 1. Electrochemical characteristics of nickel hydroxide modified by electroless cobalt. Int.J.Hydrogen Energy. 1998, 23(10), 873 2. Surface modification and electrochemical studies of spherical nickel hydroxide. J.Power Sources. 1998, 72221 3. The effect of electroless cobalt plating upon characteristics of nickel hydroxide electrode for rechargeable alkaline batteries. TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA. 1998, 8(4), 666 4. Impedance studies of the nickel hydroxide electrode deposited by cobalt. Int.J.Hydrogen Energy. 1999, 24(10), 973 5. Cyclic voltammetric studies of pasted nickel hydroxide microencapsulated by cobalt. J.Appl.Electrochem. 1998, 28(12), 1377 6. Physical and electrochemical characteristics of aluminum-substituted nickel hydroxide. J.Appl.Electrochem. 1999, 29(7), 853 7. Effect of state of charge on impedance spectrum of sealed Ni/MH cells. J.Alloys and Compounds. 1999, 293-295788 8. Phase relations in the Nd–Al–Si system at 5000C. J.Alloys and Compounds. 2001, 325190-193 9. Studies of the performance of nanostructured multiphase nickel hydroxide. J. Power Sources. 2003, 115153-160 10. Studies on the oxygen rection catalyst for zinc-air battery electrode. J. Power Sources. 2003, 124278-284 11. Oxygen catalytic evolution reaction on nickel hydroxide electrode modified by electroless cobalt coating. Int.J.Hydrogen Energy. 2004, 29967-972 12. Sol–gel template synthesis of highly ordered MnO2 nanowire arrays. J. Power Sources. 2005, 140(1), 211-215 13. Electrochemical study of nanostructured multiphase nickel hydroxide. Journal of New Materials for Electrochemical System. 2005, 8101-108 14. Rapid activation of MmNi5−xMx based MH alloy through Pd nanoparticle impregnation. J. Power Sources. 2006, 155470-474 15. Studies on preparation and performances of carbon aerogel electrodes for the application of supercapacitor. J. of Power Sources. 2006, 158784-788 16. Synthesis and characterization of high tap-density layered Li[Ni1/3Co1/3Mn1/3]O2 cathode material via hydroxide co-precipitation. J. of Power Sources. 2006, 158654-658 17. The preparation of NaV1−xCrxPO4F cathode materials for sodium-ion battery. J. of Power Sources. 2006, 160698-703 18. Synthesis and electrochemical properties of layered Li[Ni0.333Co0.333Mn0.293Al0.04]O2−zFz cathode materials prepared by the sol–gel method. J. of Power Sources. 2006, 160657-661 19. A new type of MnO2·xH2O/CRF composite electrode for supercapacitors. J. of Power Sources. 2006, 1601501-1505 20. Characterization and performance of hydrous manganese oxide prepared by electrochemical method and its application for supercapacitors . Electrochimica Acta. 2006, 521758-1762 21. Effects of synthesis conditions on the structural and electrochemical properties of layered Li[Ni1/3Co1/3Mn1/3]O2 cathode material via the hydroxide co-precipitation method LIB SCITECH. Journal of Power Sources. 2006, 161601-605 22. Nickel hydroxide/activated carbon composite electrodes for electrochemical capacitor. Journal of Power Sources. 2007, 164425-429 23. Preparation and characterization of RuO2·xH2O/carbon aerogel composites for supercapacitors. J Appl Electrochem . 2007, 371129-1135 24. Structure and electrochemical properties of carbon aerogels synthesized at ambient temperatures as supercapacitors. Journal of Non-Crystalline Solids. 2008, 354(1), 19-24 25. Electrochemical Behavior of Li3V2(PO4)3/C composite cathode material for Lithium-Ion Batteries. Materials Letters. 2008, 62(10-11), 1646-1648 26. Preparation of NaV1-xAlxPO4F cathode materials for application of sodium-ion battery. Trans. Nonferrous Met. Soc. China. 2008, 18346-350 27. Studies of impedance and state of sealed nickel-metal hydride (MH) batteries. Inter. Symposium on Metal Hydrogen Systems. 1998, 28. Study of performance of spherical multiphase nickel hydroxide. Mechanics and Material Engineering for Science and Experiments. 2001, 29. A surface study of the black chromate conversion film on the zinc-iron alloy deposit. Mechanics and Material Engineering for Science and Experiments. 2001, 421 30. Surface morphology and phase structure investigation of zinc and zinc-iron deposits electrodeposited from sulfate solution. Mechanics and Material Engineering for Science and Experiments. 2001, 432 31. Synthesis and Electrochemical Study of nanostructural multiphase nickel hydroxide, Electrochemistry communication. International Conference of Solar Energy and Batteries Materials. 2002, 32. Oxygen Evolution Reaction on Nickel Hydroxide Electrode Modified by Electroless Cobalt Coating. International Conference of Solar Energy and Batteries Materials. 2002,