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Progress in Chemistry 2006, Vol. 18 Issue (0708): 883-888 Previous Articles   Next Articles

• Review •

Research Development and Prospect of α-Ni(OH)2

Yuangang Liu**;Zhiyuan Tang;Qiang Xu;Xiaoyang Zhang;Yong Liu   

  1. Department of Applied Chemistry,School of Chemical Engineering and Technology, Tianjin 300072, China
  • Received: Revised: Online: Published:
  • Contact: Yuangang Liu
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The factors that affect the stability of α-Ni(OH)2 in alkaline electrolyte , as well as the conditions and measures to hold its alpha phase are reviewed in this paper. The up-to-date research and development of α-Ni(OH)2 is presented, especially the preparation, stabilization and electrochemical performance of α-Ni(OH)2 through partially substituting Al3+, Mn3+and Zn2+ for Ni2+. Synthesis of nickel hydroxide powders by urea thermal decomposition is narrated and the research and application of nanocrystalline α-Ni(OH)2 are prospected.
Key words: α-Ni(OH)2, stability, electrochemical performance

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[ 1 ] 毕道治(Bi D Z) . 电池工业(Chinese Battery Industry) , 2002 ,79(3/4) : 205 —210
[ 2 ] 杨书廷(Yang S T) , 尹艳红( Yin Y H) , 丁玉珍(Ding Y Z) .河南师范大学学报(Journal of Henan Normal University) ,2000 , 28(1) : 106 —109
[ 3 ] 刘敏(Liu M) , 韩恩山(Han E S) , 朱令之(Zhu L Z) . 电源技术(Chinese Journal of Power Sources) , 2002 , 26(3) : 172 —175
[ 4 ] 应皆荣(Ying J R) , 万春荣(Wan C R) , 姜长印(Jiang C Y) .无机材料学报(Journal of Inorganic Materials) , 2001 , 16 (5) :821 —826
[ 5 ] 吴芳芳(Wu F F) , 王建明(Wang J M) , 陈惠(Chen H) . 电源技术(Chinese Journal of Power Sources) , 2004 , 28(11) : 700 —703
[ 6 ] 张红兵(Zhang H B) . 中国科学院安徽光学精密机械研究所博士论文( Doctoral Dissertation of the Institute of Optical Precision Machinery , CAS) , 2001
[ 7 ] Ramesh T N , Jayashree R S , Vishnu Kamath P. J . Electrochem.Soc. , 2003 , 150 : A520 —524
[ 8 ] 袁安保(Yuan A B) , 张鉴清(Zhang J Q) , 曹楚南(Cao C N) .电源技术(Chinese Journal of Power Sources) , 2001 , 25 (1) :53 —59
[ 9 ] Michael R , Kamath P V. Journal of Power Sources , 1998 , 70 :118 —121
[10] 李景虹(Li J H) . 先进电池材料(Advanced Battery Materials) .北京(Beijing) : 化学工业出版社(Chemical Industry Press) ,2004. 90
[11] 周勤俭(Zhou Q J ) , 袁庆文(Yuan Q W) , 覃事彪(Tan S B) .电池(Battery Bimonthly) , 2003 , 33(2) : 93 —95
[12] 王占良(Wang Z L) , 唐致远(Tang Z Y) , 雷荣(Lei R) . 辽宁化工(Liaoning Chemical Industry) , 2001 , 30(2) : 57 —61
[13] Mridula D , Kamath P V , Gopalakrishnan J . J . Electrochem.Soc. , 1999 , 146 : A79 —82
[14] Bode H , Dehmel T , Witte J . Electrochimica Acta , 1966 , 11 :1079 —1087
[15] Delahaye-Vidal A , Figlarz M. J . Appl . Electrochem. , 1987 ,17 : 589 —599
[16] Bernard M C , Bernard P , Keddam M, et al . Electrochimica Acta , 1996 , 41(1) : 91 —93
[17] Jayashreer S , Kamath P V. J . Appl . Electrochem. , 1999 , 29 :449 —454
[18] Subbaiah T , Mohapatra R , Mallick S , et al . Hydrometallurgy ,2003 , 68 : 151 —157
[19] 王晓峰(Wang X F) , 王大志(Wang D Z) , 梁吉(Liang J) . 物理化学学报(Acta Phys. Chim. Sin. ) , 2005 , 21 (2) : 117 —122
[20] Annal G H , Therese P , Vishnu K. J . Appl . Electrochem. ,1998 , 28 : 539 —543
[21] Demourgues-Guerlou L , Delmas C. Journal of Power Sources ,1993 , 45(3) : 281 —289
[22] Indira L , Mridula D , Vishnu Kamath P. Journal of Power Sources , 1994 , 52(1) : 93 —97
[23] Sugimoto A , Ishida S , Hanawa K. J . Electrochem. Soc. , 1999 ,146 : A1251 —1255
[24] Liu B , Wang X Y, Yuan H T , et al . J . Appl . Electrochem. ,1999 , 29 : 855 —860
[25] Liu B , Yuan H T , Zhang Y S , et al . Journal of Power Sources ,1999 , 79(2) : 277 —280
[26] 翟海军(Zhai H J) , 王先友(Wang X Y) , 杨红平(Yang H P) .电源技术(Chinese Journal of Power Sources) , 2002 , 26 (5) :348 —350
[27] 翟海军(Zhai H J) , 王先友(Wang X Y) , 杨红平(Yang H P) .电源技术(Chinese Journal of Power Sources) , 2003 , 27 : 197 —200
[28] 翟海军(Zhai H J) , 王先友(Wang X Y) , 杨红平(Yang H P) .电源技术(Chinese Journal of Power Sources) , 2002 , 26 (4) :281 —283
[29] 杜晓华(Du X H) , 姜长印(Jiang C Y) . 电源技术(Chinese Journal of Power Sources) , 2002 , 26(2) : 123 —127
[30] Dai J X, Li S F Y, Xiao T D , et al . Journal of Power Sources ,2000 , 89 : 40 —45
[31] Wang C Y, Zhong S , Konstantinov K, et al . Solid State Ionics ,2002 ,148 : 503 —508
[32] 张倩(Zhang Q) , 徐艳辉(Xu Y H) , 王晓琳(Wang X L) . 稀有金属材料与工程( Rare Metal Materials and Engineering) ,2003 , 32(11) : 919 —922
[33] 许娟(Xu J ) , 周益明(Zhou Y M) , 唐亚文(Tang Y W) . 无机化学学报(Chinese Journal of Inorganic Chemistry) , 2003 , 19(5) : 535 —538
[34] 许娟(Xu J ) , 周益明(Zhou Y M) , 唐亚文(Tang Y W) . 南京师范大学学报(Journal of Nanjing Normal University) , 2002 , 2(4) : 21 —22
[35] Chen H , Wang J M, Pan T , et al . International Journal ofHydrogen Energy , 2003 , 28 : 119 —124
[36] Liu B , Yuan H T , Zhang Y S. International Journal of Hydrogen Energy , 2004 , 29 : 453 —458
[37] Chen H , Wang J M, Pan T , et al . Journal of Power Sources ,2005 , 143 (1/2) : 243 —255
[38] Chen H , Wang J M, Pan T , et al . J . Electrochem. Soc. , 2003 ,150 : A1399 —1404
[39] Demourgues-Guerlou L , Denage C , Delmas C. Journal of Power Sources , 1994 , 52 : 269 —274
[40] Demourgues-Guerlou L , Delmas C. Journal of Power Sources ,1994 , 52 : 275 —281
[41] 吴梅银(Wu M Y) , 王建明(Wang J M) , 张鉴清(Zhang J Q)等. 物理化学学报(Acta Phys. Chim. Sin. ) , 2005 , 21 (5) :523 —527
[42] 许娟(Xu J ) , 周益明(Zhou Y M) , 王青(Wang Q) . 南京师范大学学报(Journal of Nanjing Normal University) , 2003 , 26(4) :79 —81
[43] Tessier C , Faure C , Guerlou-Demourgues L , et al . J .Electrochem. Soc. , 2002 , 149 : A1136 —1145
[44] 陈惠(Chen H) , 王建明(Wang J M) , 潘滔(Pan T) . 中国有色金属学报(Chinese Journal of Nonferrous Metals) , 2003 , 13(1) : 85 —90
[45] Tessier C , Guerlou2Demourgues L , Faure C , et al . Solid State Ionics , 2000 , 133 : 11 —23
[46] Susana I , Córdoba de T , Kellie P , et al . J . Electrochem. Soc. ,2001 , 148 : A1179 —1184
[47] Wang X Y, Hean L , Parkhutik P V , et al . Journal of Power Sources , 2003 , 115 : 153 —160
[48] 冯炎龙(Feng Y L) , 郭建忠(Guo J Z) , 刘力(Liu L) . 浙江林学院学报(Journal of Zhejiang Forestry College) , 2003 , 20 (3) :293 —296
[49] Avena M J , Vasquez M V , Carbonio R E. et al . J . Appl .Electrochem. , 1994 , 24 : 256 —260
[50] Mufit A , Nathalie J , Jacques L , et al . Journal of the European Ceramic Society , 1998 ,18 : 1559 —1564
[51] 王燕(Wang Y) , 杨云霞(Yang Y X) , 杨旭(Yang X) . 化学世界(Chemistry World) , 2000 , 41(12) : 659 —661
[52] Acharya R , Subbaiah T , Anand S , et al . Materials Chemistry and Physics , 2003 , 81 : 45 —49
[53] Acharya R , Subbaiah T , Anand S , et al . Materials Letters ,2003 , 57 : 3089 —3095
[54] Zhao Y L , Wang J M, Chen H , et al . International Journal of Hydrogen Energy , 2004 , 29 : 889 —896
[55] Kumar V G, Munichandraiah N , Kamath P V , et al . Journal of Power Sources , 1995 ,56 (1) : 111 —114
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